package DBM::Deep::Engine;
+use 5.006_000;
+
use strict;
+use warnings FATAL => 'all';
+
+# Never import symbols into our namespace. We are a class, not a library.
+# -RobK, 2008-05-27
+use Scalar::Util ();
-use Fcntl qw( :DEFAULT :flock :seek );
+#use Data::Dumper ();
+
+# File-wide notes:
+# * Every method in here assumes that the storage has been appropriately
+# safeguarded. This can be anything from flock() to some sort of manual
+# mutex. But, it's the caller's responsability to make sure that this has
+# been done.
-##
# Setup file and tag signatures. These should never change.
-##
sub SIG_FILE () { 'DPDB' }
-sub SIG_INTERNAL () { 'i' }
+sub SIG_HEADER () { 'h' }
sub SIG_HASH () { 'H' }
sub SIG_ARRAY () { 'A' }
-sub SIG_SCALAR () { 'S' }
sub SIG_NULL () { 'N' }
sub SIG_DATA () { 'D' }
sub SIG_INDEX () { 'I' }
sub SIG_BLIST () { 'B' }
+sub SIG_FREE () { 'F' }
sub SIG_SIZE () { 1 }
-sub precalc_sizes {
- ##
- # Precalculate index, bucket and bucket list sizes
- ##
- my $self = shift;
-
- $self->{index_size} = (2**8) * $self->{long_size};
- $self->{bucket_size} = $self->{hash_size} + $self->{long_size};
- $self->{bucket_list_size} = $self->{max_buckets} * $self->{bucket_size};
+our $STALE_SIZE = 2;
+
+# Please refer to the pack() documentation for further information
+my %StP = (
+ 1 => 'C', # Unsigned char value (no order needed as it's just one byte)
+ 2 => 'n', # Unsigned short in "network" (big-endian) order
+ 4 => 'N', # Unsigned long in "network" (big-endian) order
+ 8 => 'Q', # Usigned quad (no order specified, presumably machine-dependent)
+);
+sub StP { $StP{$_[1]} }
+
+# Import these after the SIG_* definitions because those definitions are used
+# in the headers of these classes. -RobK, 2008-06-20
+use DBM::Deep::Engine::Sector::BucketList;
+use DBM::Deep::Engine::Sector::FileHeader;
+use DBM::Deep::Engine::Sector::Index;
+use DBM::Deep::Engine::Sector::Null;
+use DBM::Deep::Engine::Sector::Reference;
+use DBM::Deep::Engine::Sector::Scalar;
+use DBM::Deep::Iterator;
+
+################################################################################
- return 1;
-}
+sub new {
+ my $class = shift;
+ my ($args) = @_;
-sub set_pack {
- ##
- # Set pack/unpack modes (see file header for more)
- ##
- my $self = shift;
- my ($long_s, $long_p, $data_s, $data_p) = @_;
+ $args->{storage} = DBM::Deep::File->new( $args )
+ unless exists $args->{storage};
- ##
- # Set to 4 and 'N' for 32-bit offset tags (default). Theoretical limit of 4
- # GB per file.
- # (Perl must be compiled with largefile support for files > 2 GB)
- #
- # Set to 8 and 'Q' for 64-bit offsets. Theoretical limit of 16 XB per file.
- # (Perl must be compiled with largefile and 64-bit long support)
- ##
- $self->{long_size} = $long_s ? $long_s : 4;
- $self->{long_pack} = $long_p ? $long_p : 'N';
+ my $self = bless {
+ byte_size => 4,
- ##
- # Set to 4 and 'N' for 32-bit data length prefixes. Limit of 4 GB for each
- # key/value. Upgrading this is possible (see above) but probably not necessary.
- # If you need more than 4 GB for a single key or value, this module is really
- # not for you :-)
- ##
- $self->{data_size} = $data_s ? $data_s : 4;
- $self->{data_pack} = $data_p ? $data_p : 'N';
+ digest => undef,
+ hash_size => 16, # In bytes
+ hash_chars => 256, # Number of chars the algorithm uses per byte
+ max_buckets => 16,
+ num_txns => 1, # The HEAD
+ trans_id => 0, # Default to the HEAD
- return $self->precalc_sizes();
-}
+ data_sector_size => 64, # Size in bytes of each data sector
-sub set_digest {
- ##
- # Set key digest function (default is MD5)
- ##
- my $self = shift;
- my ($digest_func, $hash_size) = @_;
+ entries => {}, # This is the list of entries for transactions
+ storage => undef,
+ }, $class;
- $self->{digest} = $digest_func ? $digest_func : \&Digest::MD5::md5;
- $self->{hash_size} = $hash_size ? $hash_size : 16;
+ # Never allow byte_size to be set directly.
+ delete $args->{byte_size};
+ if ( defined $args->{pack_size} ) {
+ if ( lc $args->{pack_size} eq 'small' ) {
+ $args->{byte_size} = 2;
+ }
+ elsif ( lc $args->{pack_size} eq 'medium' ) {
+ $args->{byte_size} = 4;
+ }
+ elsif ( lc $args->{pack_size} eq 'large' ) {
+ $args->{byte_size} = 8;
+ }
+ else {
+ DBM::Deep->_throw_error( "Unknown pack_size value: '$args->{pack_size}'" );
+ }
+ }
- return $self->precalc_sizes();
-}
+ # Grab the parameters we want to use
+ foreach my $param ( keys %$self ) {
+ next unless exists $args->{$param};
+ $self->{$param} = $args->{$param};
+ }
-sub new {
- my $class = shift;
- my ($args) = @_;
+ my %validations = (
+ max_buckets => { floor => 16, ceil => 256 },
+ num_txns => { floor => 1, ceil => 255 },
+ data_sector_size => { floor => 32, ceil => 256 },
+ );
- my $self = bless {
- long_size => 4,
- long_pack => 'N',
- data_size => 4,
- data_pack => 'N',
-
- digest => \&Digest::MD5::md5,
- hash_size => 16,
-
- ##
- # Maximum number of buckets per list before another level of indexing is done.
- # Increase this value for slightly greater speed, but larger database files.
- # DO NOT decrease this value below 16, due to risk of recursive reindex overrun.
- ##
- max_buckets => 16,
- }, $class;
+ while ( my ($attr, $c) = each %validations ) {
+ if ( !defined $self->{$attr}
+ || !length $self->{$attr}
+ || $self->{$attr} =~ /\D/
+ || $self->{$attr} < $c->{floor}
+ ) {
+ $self->{$attr} = '(undef)' if !defined $self->{$attr};
+ warn "Floor of $attr is $c->{floor}. Setting it to $c->{floor} from '$self->{$attr}'\n";
+ $self->{$attr} = $c->{floor};
+ }
+ elsif ( $self->{$attr} > $c->{ceil} ) {
+ warn "Ceiling of $attr is $c->{ceil}. Setting it to $c->{ceil} from '$self->{$attr}'\n";
+ $self->{$attr} = $c->{ceil};
+ }
+ }
- $self->precalc_sizes;
+ if ( !$self->{digest} ) {
+ require Digest::MD5;
+ $self->{digest} = \&Digest::MD5::md5;
+ }
return $self;
}
-sub setup_fh {
+################################################################################
+
+sub read_value {
my $self = shift;
- my ($obj) = @_;
+ my ($obj, $key) = @_;
- $self->open( $obj ) if !defined $obj->_fh;
+ # This will be a Reference sector
+ my $sector = $self->_load_sector( $obj->_base_offset )
+ or return;
- #XXX We have to make sure we don't mess up when autoflush isn't turned on
- unless ( $obj->_root->{inode} ) {
- my @stats = stat($obj->_fh);
- $obj->_root->{inode} = $stats[1];
- $obj->_root->{end} = $stats[7];
+ if ( $sector->staleness != $obj->_staleness ) {
+ return;
}
- return 1;
+ my $key_md5 = $self->_apply_digest( $key );
+
+ my $value_sector = $sector->get_data_for({
+ key_md5 => $key_md5,
+ allow_head => 1,
+ });
+
+ unless ( $value_sector ) {
+ $value_sector = DBM::Deep::Engine::Sector::Null->new({
+ engine => $self,
+ data => undef,
+ });
+
+ $sector->write_data({
+ key_md5 => $key_md5,
+ key => $key,
+ value => $value_sector,
+ });
+ }
+
+ return $value_sector->data;
}
-sub open {
- ##
- # Open a fh to the database, create if nonexistent.
- # Make sure file signature matches DBM::Deep spec.
- ##
+sub get_classname {
my $self = shift;
my ($obj) = @_;
- if (defined($obj->_fh)) { $self->close_fh( $obj ); }
+ # This will be a Reference sector
+ my $sector = $self->_load_sector( $obj->_base_offset )
+ or DBM::Deep->_throw_error( "How did get_classname fail (no sector for '$obj')?!" );
- # Theoretically, adding O_BINARY should remove the need for the binmode
- # Of course, testing it is going to be ... interesting.
- my $flags = O_RDWR | O_CREAT | O_BINARY;
-
- my $fh;
- sysopen( $fh, $obj->_root->{file}, $flags )
- or $obj->_throw_error("Cannot sysopen file: " . $obj->_root->{file} . ": $!");
- $obj->_root->{fh} = $fh;
+ if ( $sector->staleness != $obj->_staleness ) {
+ return;
+ }
- #XXX Can we remove this by using the right sysopen() flags?
- # Maybe ... q.v. above
- binmode $fh; # for win32
+ return $sector->get_classname;
+}
- if ($obj->_root->{autoflush}) {
- my $old = select $fh;
- $|=1;
- select $old;
- }
+sub make_reference {
+ my $self = shift;
+ my ($obj, $old_key, $new_key) = @_;
- seek($fh, 0 + $obj->_root->{file_offset}, SEEK_SET);
+ # This will be a Reference sector
+ my $sector = $self->_load_sector( $obj->_base_offset )
+ or DBM::Deep->_throw_error( "How did make_reference fail (no sector for '$obj')?!" );
- my $signature;
- my $bytes_read = read( $fh, $signature, length(SIG_FILE));
+ if ( $sector->staleness != $obj->_staleness ) {
+ return;
+ }
- ##
- # File is empty -- write signature and master index
- ##
- if (!$bytes_read) {
- seek($fh, 0 + $obj->_root->{file_offset}, SEEK_SET);
- print( $fh SIG_FILE);
+ my $old_md5 = $self->_apply_digest( $old_key );
- $self->create_tag($obj, $obj->_base_offset, $obj->_type, chr(0) x $self->{index_size});
+ my $value_sector = $sector->get_data_for({
+ key_md5 => $old_md5,
+ allow_head => 1,
+ });
- # Flush the filehandle
- my $old_fh = select $fh;
- my $old_af = $|; $| = 1; $| = $old_af;
- select $old_fh;
+ unless ( $value_sector ) {
+ $value_sector = DBM::Deep::Engine::Sector::Null->new({
+ engine => $self,
+ data => undef,
+ });
- return 1;
+ $sector->write_data({
+ key_md5 => $old_md5,
+ key => $old_key,
+ value => $value_sector,
+ });
}
- ##
- # Check signature was valid
- ##
- unless ($signature eq SIG_FILE) {
- $self->close_fh( $obj );
- $obj->_throw_error("Signature not found -- file is not a Deep DB");
+ if ( $value_sector->isa( 'DBM::Deep::Engine::Sector::Reference' ) ) {
+ $sector->write_data({
+ key => $new_key,
+ key_md5 => $self->_apply_digest( $new_key ),
+ value => $value_sector,
+ });
+ $value_sector->increment_refcount;
+ }
+ else {
+ $sector->write_data({
+ key => $new_key,
+ key_md5 => $self->_apply_digest( $new_key ),
+ value => $value_sector->clone,
+ });
}
+}
+
+sub key_exists {
+ my $self = shift;
+ my ($obj, $key) = @_;
- ##
- # Get our type from master index signature
- ##
- my $tag = $self->load_tag($obj, $obj->_base_offset)
- or $obj->_throw_error("Corrupted file, no master index record");
+ # This will be a Reference sector
+ my $sector = $self->_load_sector( $obj->_base_offset )
+ or return '';
- unless ($obj->{type} eq $tag->{signature}) {
- $obj->_throw_error("File type mismatch");
+ if ( $sector->staleness != $obj->_staleness ) {
+ return '';
}
-#XXX We probably also want to store the hash algorithm name and not assume anything
-#XXX The cool thing would be to allow a different hashing algorithm at every level
+ my $data = $sector->get_data_for({
+ key_md5 => $self->_apply_digest( $key ),
+ allow_head => 1,
+ });
- return 1;
+ # exists() returns 1 or '' for true/false.
+ return $data ? 1 : '';
}
-sub close_fh {
+sub delete_key {
my $self = shift;
- my ($obj) = @_;
+ my ($obj, $key) = @_;
+
+ my $sector = $self->_load_sector( $obj->_base_offset )
+ or return;
- if ( my $fh = $obj->_root->{fh} ) {
- close $fh;
+ if ( $sector->staleness != $obj->_staleness ) {
+ return;
}
- $obj->_root->{fh} = undef;
- return 1;
+ return $sector->delete_key({
+ key_md5 => $self->_apply_digest( $key ),
+ allow_head => 0,
+ });
}
-sub create_tag {
- ##
- # Given offset, signature and content, create tag and write to disk
- ##
+sub write_value {
my $self = shift;
- my ($obj, $offset, $sig, $content) = @_;
- my $size = length($content);
+ my ($obj, $key, $value) = @_;
- my $fh = $obj->_fh;
+ my $r = Scalar::Util::reftype( $value ) || '';
+ {
+ last if $r eq '';
+ last if $r eq 'HASH';
+ last if $r eq 'ARRAY';
- seek($fh, $offset + $obj->_root->{file_offset}, SEEK_SET);
- print( $fh $sig . pack($self->{data_pack}, $size) . $content );
+ DBM::Deep->_throw_error(
+ "Storage of references of type '$r' is not supported."
+ );
+ }
+
+ # This will be a Reference sector
+ my $sector = $self->_load_sector( $obj->_base_offset )
+ or DBM::Deep->_throw_error( "1: Cannot write to a deleted spot in DBM::Deep." );
- if ($offset == $obj->_root->{end}) {
- $obj->_root->{end} += SIG_SIZE + $self->{data_size} + $size;
+ if ( $sector->staleness != $obj->_staleness ) {
+ DBM::Deep->_throw_error( "2: Cannot write to a deleted spot in DBM::Deep." );
}
- return {
- signature => $sig,
- size => $size,
- offset => $offset + SIG_SIZE + $self->{data_size},
- content => $content
- };
-}
+ my ($class, $type);
+ if ( !defined $value ) {
+ $class = 'DBM::Deep::Engine::Sector::Null';
+ }
+ elsif ( $r eq 'ARRAY' || $r eq 'HASH' ) {
+ my $tmpvar;
+ if ( $r eq 'ARRAY' ) {
+ $tmpvar = tied @$value;
+ } elsif ( $r eq 'HASH' ) {
+ $tmpvar = tied %$value;
+ }
-sub load_tag {
- ##
- # Given offset, load single tag and return signature, size and data
- ##
- my $self = shift;
- my ($obj, $offset) = @_;
+ if ( $tmpvar ) {
+ my $is_dbm_deep = eval { local $SIG{'__DIE__'}; $tmpvar->isa( 'DBM::Deep' ); };
- my $fh = $obj->_fh;
+ unless ( $is_dbm_deep ) {
+ DBM::Deep->_throw_error( "Cannot store something that is tied." );
+ }
- seek($fh, $offset + $obj->_root->{file_offset}, SEEK_SET);
+ unless ( $tmpvar->_engine->storage == $self->storage ) {
+ DBM::Deep->_throw_error( "Cannot store values across DBM::Deep files. Please use export() instead." );
+ }
- #XXX I'm not sure this check will work if autoflush isn't enabled ...
- return if eof $fh;
+ # First, verify if we're storing the same thing to this spot. If we are, then
+ # this should be a no-op. -EJS, 2008-05-19
+ my $loc = $sector->get_data_location_for({
+ key_md5 => $self->_apply_digest( $key ),
+ allow_head => 1,
+ });
- my $b;
- read( $fh, $b, SIG_SIZE + $self->{data_size} );
- my ($sig, $size) = unpack( "A $self->{data_pack}", $b );
+ if ( defined($loc) && $loc == $tmpvar->_base_offset ) {
+ return 1;
+ }
- my $buffer;
- read( $fh, $buffer, $size);
+ #XXX Can this use $loc?
+ my $value_sector = $self->_load_sector( $tmpvar->_base_offset );
+ $sector->write_data({
+ key => $key,
+ key_md5 => $self->_apply_digest( $key ),
+ value => $value_sector,
+ });
+ $value_sector->increment_refcount;
- return {
- signature => $sig,
- size => $size,
- offset => $offset + SIG_SIZE + $self->{data_size},
- content => $buffer
- };
-}
+ return 1;
+ }
-sub add_bucket {
- ##
- # Adds one key/value pair to bucket list, given offset, MD5 digest of key,
- # plain (undigested) key and value.
- ##
- my $self = shift;
- my ($obj, $tag, $md5, $plain_key, $value) = @_;
+ $class = 'DBM::Deep::Engine::Sector::Reference';
+ $type = substr( $r, 0, 1 );
+ }
+ else {
+ if ( tied($value) ) {
+ DBM::Deep->_throw_error( "Cannot store something that is tied." );
+ }
+ $class = 'DBM::Deep::Engine::Sector::Scalar';
+ }
- my $location = 0;
- my $result = 2;
+ # Create this after loading the reference sector in case something bad happens.
+ # This way, we won't allocate value sector(s) needlessly.
+ my $value_sector = $class->new({
+ engine => $self,
+ data => $value,
+ type => $type,
+ });
+
+ $sector->write_data({
+ key => $key,
+ key_md5 => $self->_apply_digest( $key ),
+ value => $value_sector,
+ });
+
+ # This code is to make sure we write all the values in the $value to the disk
+ # and to make sure all changes to $value after the assignment are reflected
+ # on disk. This may be counter-intuitive at first, but it is correct dwimmery.
+ # NOTE - simply tying $value won't perform a STORE on each value. Hence, the
+ # copy to a temp value.
+ if ( $r eq 'ARRAY' ) {
+ my @temp = @$value;
+ tie @$value, 'DBM::Deep', {
+ base_offset => $value_sector->offset,
+ staleness => $value_sector->staleness,
+ storage => $self->storage,
+ engine => $self,
+ };
+ @$value = @temp;
+ bless $value, 'DBM::Deep::Array' unless Scalar::Util::blessed( $value );
+ }
+ elsif ( $r eq 'HASH' ) {
+ my %temp = %$value;
+ tie %$value, 'DBM::Deep', {
+ base_offset => $value_sector->offset,
+ staleness => $value_sector->staleness,
+ storage => $self->storage,
+ engine => $self,
+ };
+
+ %$value = %temp;
+ bless $value, 'DBM::Deep::Hash' unless Scalar::Util::blessed( $value );
+ }
- my $root = $obj->_root;
+ return 1;
+}
- my $is_dbm_deep = eval { local $SIG{'__DIE__'}; $value->isa( 'DBM::Deep' ) };
- my $internal_ref = $is_dbm_deep && ($value->_root eq $root);
+# XXX Add staleness here
+sub get_next_key {
+ my $self = shift;
+ my ($obj, $prev_key) = @_;
+
+ # XXX Need to add logic about resetting the iterator if any key in the reference has changed
+ unless ( $prev_key ) {
+ $obj->{iterator} = DBM::Deep::Iterator->new({
+ base_offset => $obj->_base_offset,
+ engine => $self,
+ });
+ }
- my $fh = $obj->_fh;
+ return $obj->{iterator}->get_next_key( $obj );
+}
- my ($subloc, $offset) = $self->_find_in_buckets( $tag, $md5 );
+################################################################################
- # Updating a known md5
- if ( $subloc ) {
- $result = 1;
+sub setup_fh {
+ my $self = shift;
+ my ($obj) = @_;
- seek($fh, $subloc + SIG_SIZE + $root->{file_offset}, SEEK_SET);
- my $size;
- read( $fh, $size, $self->{data_size});
- $size = unpack($self->{data_pack}, $size);
+ return 1 if $obj->_base_offset;
- ##
- # If value is a hash, array, or raw value with equal or less size, we can
- # reuse the same content area of the database. Otherwise, we have to create
- # a new content area at the EOF.
- ##
- my $actual_length;
- if ( $internal_ref ) {
- $actual_length = $self->{long_size};
- }
- else {
- my $r = Scalar::Util::reftype( $value ) || '';
- if ( $r eq 'HASH' || $r eq 'ARRAY' ) {
- $actual_length = $self->{index_size};
-
- # if autobless is enabled, must also take into consideration
- # the class name, as it is stored along with key/value.
- if ( $root->{autobless} ) {
- my $value_class = Scalar::Util::blessed($value);
- if ( defined $value_class && !$value->isa('DBM::Deep') ) {
- $actual_length += length($value_class);
- }
- }
- }
- else { $actual_length = length($value); }
- }
+ my $header = $self->_load_header;
- if ($actual_length <= $size) {
- $location = $subloc;
- }
- else {
- $location = $root->{end};
- seek(
- $fh,
- $tag->{offset} + $offset + $self->{hash_size} + $root->{file_offset},
- SEEK_SET,
- );
- print( $fh pack($self->{long_pack}, $location) );
- }
- }
- # Adding a new md5
- elsif ( defined $offset ) {
- $result = 2;
- $location = $root->{end};
+ # Creating a new file
+ if ( $header->is_new ) {
+ # 1) Create Array/Hash entry
+ my $sector = DBM::Deep::Engine::Sector::Reference->new({
+ engine => $self,
+ type => $obj->_type,
+ });
+ $obj->{base_offset} = $sector->offset;
+ $obj->{staleness} = $sector->staleness;
- seek( $fh, $tag->{offset} + $offset + $root->{file_offset}, SEEK_SET );
- print( $fh $md5 . pack($self->{long_pack}, $location) );
+ $self->flush;
}
- # If bucket didn't fit into list, split into a new index level
+ # Reading from an existing file
else {
- $self->split_index( $obj, $md5, $tag );
-
- $location = $root->{end};
- }
-
- ##
- # Seek to content area and store signature, value and plaintext key
- ##
- if ($location) {
- seek($fh, $location + $root->{file_offset}, SEEK_SET);
-
- ##
- # Write signature based on content type, set content length and write
- # actual value.
- ##
- my $r = Scalar::Util::reftype($value) || '';
- my $content_length;
- if ( $internal_ref ) {
- print( $fh SIG_INTERNAL );
- print( $fh pack($self->{data_pack}, $self->{long_size}) );
- print( $fh pack($self->{long_pack}, $value->_base_offset) );
- $content_length = $self->{long_size};
- }
- else {
- if ($r eq 'HASH') {
- print( $fh SIG_HASH );
- print( $fh pack($self->{data_pack}, $self->{index_size}) . chr(0) x $self->{index_size} );
- $content_length = $self->{index_size};
- }
- elsif ($r eq 'ARRAY') {
- print( $fh SIG_ARRAY );
- print( $fh pack($self->{data_pack}, $self->{index_size}) . chr(0) x $self->{index_size} );
- $content_length = $self->{index_size};
- }
- elsif (!defined($value)) {
- print( $fh SIG_NULL );
- print( $fh pack($self->{data_pack}, 0) );
- $content_length = 0;
- }
- else {
- print( $fh SIG_DATA );
- print( $fh pack($self->{data_pack}, length($value)) . $value );
- $content_length = length($value);
- }
+ $obj->{base_offset} = $header->size;
+ my $sector = DBM::Deep::Engine::Sector::Reference->new({
+ engine => $self,
+ offset => $obj->_base_offset,
+ });
+ unless ( $sector ) {
+ DBM::Deep->_throw_error("Corrupted file, no master index record");
}
- ##
- # Plain key is stored AFTER value, as keys are typically fetched less often.
- ##
- print( $fh pack($self->{data_pack}, length($plain_key)) . $plain_key );
-
- ##
- # If value is blessed, preserve class name
- ##
- if ( $root->{autobless} ) {
- my $value_class = Scalar::Util::blessed($value);
- if ( defined $value_class && !$value->isa( 'DBM::Deep' ) ) {
- ##
- # Blessed ref -- will restore later
- ##
- print( $fh chr(1) );
- print( $fh pack($self->{data_pack}, length($value_class)) . $value_class );
- $content_length += 1;
- $content_length += $self->{data_size} + length($value_class);
- }
- else {
- print( $fh chr(0) );
- $content_length += 1;
- }
+ unless ($obj->_type eq $sector->type) {
+ DBM::Deep->_throw_error("File type mismatch");
}
- ##
- # If this is a new content area, advance EOF counter
- ##
- if ($location == $root->{end}) {
- $root->{end} += SIG_SIZE;
- $root->{end} += $self->{data_size} + $content_length;
- $root->{end} += $self->{data_size} + length($plain_key);
- }
+ $obj->{staleness} = $sector->staleness;
+ }
- ##
- # If content is a hash or array, create new child DBM::Deep object and
- # pass each key or element to it.
- ##
- if ( ! $internal_ref ) {
- if ($r eq 'HASH') {
- my $branch = DBM::Deep->new(
- type => DBM::Deep->TYPE_HASH,
- base_offset => $location,
- root => $root,
- );
- foreach my $key (keys %{$value}) {
- $branch->STORE( $key, $value->{$key} );
- }
- }
- elsif ($r eq 'ARRAY') {
- my $branch = DBM::Deep->new(
- type => DBM::Deep->TYPE_ARRAY,
- base_offset => $location,
- root => $root,
- );
- my $index = 0;
- foreach my $element (@{$value}) {
- $branch->STORE( $index, $element );
- $index++;
- }
- }
- }
+ $self->storage->set_inode;
+
+ return 1;
+}
+
+sub begin_work {
+ my $self = shift;
+ my ($obj) = @_;
+
+ if ( $self->trans_id ) {
+ DBM::Deep->_throw_error( "Cannot begin_work within an active transaction" );
+ }
+
+ my @slots = $self->read_txn_slots;
+ my $found;
+ for my $i ( 0 .. $#slots ) {
+ next if $slots[$i];
+
+ $slots[$i] = 1;
+ $self->set_trans_id( $i + 1 );
+ $found = 1;
+ last;
+ }
+ unless ( $found ) {
+ DBM::Deep->_throw_error( "Cannot allocate transaction ID" );
+ }
+ $self->write_txn_slots( @slots );
- return $result;
+ if ( !$self->trans_id ) {
+ DBM::Deep->_throw_error( "Cannot begin_work - no available transactions" );
}
- $obj->_throw_error("Fatal error: indexing failed -- possibly due to corruption in file");
+ return;
}
-sub split_index {
+sub rollback {
my $self = shift;
- my ($obj, $md5, $tag) = @_;
+ my ($obj) = @_;
+
+ if ( !$self->trans_id ) {
+ DBM::Deep->_throw_error( "Cannot rollback without an active transaction" );
+ }
- my $fh = $obj->_fh;
- my $root = $obj->_root;
- my $keys = $tag->{content};
+ # Each entry is the file location for a bucket that has a modification for
+ # this transaction. The entries need to be expunged.
+ foreach my $entry (@{ $self->get_entries } ) {
+ # Remove the entry here
+ my $read_loc = $entry
+ + $self->hash_size
+ + $self->byte_size
+ + $self->byte_size
+ + ($self->trans_id - 1) * ( $self->byte_size + $STALE_SIZE );
+
+ my $data_loc = $self->storage->read_at( $read_loc, $self->byte_size );
+ $data_loc = unpack( $StP{$self->byte_size}, $data_loc );
+ $self->storage->print_at( $read_loc, pack( $StP{$self->byte_size}, 0 ) );
+
+ if ( $data_loc > 1 ) {
+ $self->_load_sector( $data_loc )->free;
+ }
+ }
- seek($fh, $tag->{ref_loc} + $root->{file_offset}, SEEK_SET);
- print( $fh pack($self->{long_pack}, $root->{end}) );
+ $self->clear_entries;
- my $index_tag = $self->create_tag(
- $obj,
- $root->{end},
- SIG_INDEX,
- chr(0) x $self->{index_size},
- );
+ my @slots = $self->read_txn_slots;
+ $slots[$self->trans_id-1] = 0;
+ $self->write_txn_slots( @slots );
+ $self->inc_txn_staleness_counter( $self->trans_id );
+ $self->set_trans_id( 0 );
- my @offsets = ();
+ return 1;
+}
- $keys .= $md5 . pack($self->{long_pack}, 0);
+sub commit {
+ my $self = shift;
+ my ($obj) = @_;
- BUCKET:
- for (my $i = 0; $i <= $self->{max_buckets}; $i++) {
- my ($key, $old_subloc) = $self->_get_key_subloc( $keys, $i );
+ if ( !$self->trans_id ) {
+ DBM::Deep->_throw_error( "Cannot commit without an active transaction" );
+ }
- next BUCKET unless $key;
+ foreach my $entry (@{ $self->get_entries } ) {
+ # Overwrite the entry in head with the entry in trans_id
+ my $base = $entry
+ + $self->hash_size
+ + $self->byte_size;
- my $num = ord(substr($key, $tag->{ch} + 1, 1));
+ my $head_loc = $self->storage->read_at( $base, $self->byte_size );
+ $head_loc = unpack( $StP{$self->byte_size}, $head_loc );
- if ($offsets[$num]) {
- my $offset = $offsets[$num] + SIG_SIZE + $self->{data_size};
- seek($fh, $offset + $root->{file_offset}, SEEK_SET);
- my $subkeys;
- read( $fh, $subkeys, $self->{bucket_list_size});
+ my $spot = $base + $self->byte_size + ($self->trans_id - 1) * ( $self->byte_size + $STALE_SIZE );
+ my $trans_loc = $self->storage->read_at(
+ $spot, $self->byte_size,
+ );
- for (my $k=0; $k<$self->{max_buckets}; $k++) {
- my ($temp, $subloc) = $self->_get_key_subloc( $subkeys, $k );
+ $self->storage->print_at( $base, $trans_loc );
+ $self->storage->print_at(
+ $spot,
+ pack( $StP{$self->byte_size} . ' ' . $StP{$STALE_SIZE}, (0) x 2 ),
+ );
- if (!$subloc) {
- seek($fh, $offset + ($k * $self->{bucket_size}) + $root->{file_offset}, SEEK_SET);
- print( $fh $key . pack($self->{long_pack}, $old_subloc || $root->{end}) );
- last;
- }
- } # k loop
+ if ( $head_loc > 1 ) {
+ $self->_load_sector( $head_loc )->free;
}
- else {
- $offsets[$num] = $root->{end};
- seek($fh, $index_tag->{offset} + ($num * $self->{long_size}) + $root->{file_offset}, SEEK_SET);
- print( $fh pack($self->{long_pack}, $root->{end}) );
+ }
- my $blist_tag = $self->create_tag($obj, $root->{end}, SIG_BLIST, chr(0) x $self->{bucket_list_size});
+ $self->clear_entries;
- seek($fh, $blist_tag->{offset} + $root->{file_offset}, SEEK_SET);
- print( $fh $key . pack($self->{long_pack}, $old_subloc || $root->{end}) );
- }
- } # i loop
+ my @slots = $self->read_txn_slots;
+ $slots[$self->trans_id-1] = 0;
+ $self->write_txn_slots( @slots );
+ $self->inc_txn_staleness_counter( $self->trans_id );
+ $self->set_trans_id( 0 );
- return;
+ return 1;
}
-sub read_from_loc {
+sub read_txn_slots {
my $self = shift;
- my ($obj, $subloc) = @_;
+ my $bl = $self->txn_bitfield_len;
+ my $num_bits = $bl * 8;
+ return split '', unpack( 'b'.$num_bits,
+ $self->storage->read_at(
+ $self->trans_loc, $bl,
+ )
+ );
+}
- my $fh = $obj->_fh;
+sub write_txn_slots {
+ my $self = shift;
+ my $num_bits = $self->txn_bitfield_len * 8;
+ $self->storage->print_at( $self->trans_loc,
+ pack( 'b'.$num_bits, join('', @_) ),
+ );
+}
- ##
- # Found match -- seek to offset and read signature
- ##
- my $signature;
- seek($fh, $subloc + $obj->_root->{file_offset}, SEEK_SET);
- read( $fh, $signature, SIG_SIZE);
+sub get_running_txn_ids {
+ my $self = shift;
+ my @transactions = $self->read_txn_slots;
+ my @trans_ids = map { $_+1} grep { $transactions[$_] } 0 .. $#transactions;
+}
- ##
- # If value is a hash or array, return new DBM::Deep object with correct offset
- ##
- if (($signature eq SIG_HASH) || ($signature eq SIG_ARRAY)) {
- my $obj = DBM::Deep->new(
- type => $signature,
- base_offset => $subloc,
- root => $obj->_root,
- );
+sub get_txn_staleness_counter {
+ my $self = shift;
+ my ($trans_id) = @_;
- if ($obj->_root->{autobless}) {
- ##
- # Skip over value and plain key to see if object needs
- # to be re-blessed
- ##
- seek($fh, $self->{data_size} + $self->{index_size}, SEEK_CUR);
-
- my $size;
- read( $fh, $size, $self->{data_size}); $size = unpack($self->{data_pack}, $size);
- if ($size) { seek($fh, $size, SEEK_CUR); }
-
- my $bless_bit;
- read( $fh, $bless_bit, 1);
- if (ord($bless_bit)) {
- ##
- # Yes, object needs to be re-blessed
- ##
- my $class_name;
- read( $fh, $size, $self->{data_size}); $size = unpack($self->{data_pack}, $size);
- if ($size) { read( $fh, $class_name, $size); }
- if ($class_name) { $obj = bless( $obj, $class_name ); }
- }
- }
+ # Hardcode staleness of 0 for the HEAD
+ return 0 unless $trans_id;
- return $obj;
- }
- elsif ( $signature eq SIG_INTERNAL ) {
- my $size;
- read( $fh, $size, $self->{data_size});
- $size = unpack($self->{data_pack}, $size);
+ return unpack( $StP{$STALE_SIZE},
+ $self->storage->read_at(
+ $self->trans_loc + $self->txn_bitfield_len + $STALE_SIZE * ($trans_id - 1),
+ $STALE_SIZE,
+ )
+ );
+}
- if ( $size ) {
- my $new_loc;
- read( $fh, $new_loc, $size );
- $new_loc = unpack( $self->{long_pack}, $new_loc );
+sub inc_txn_staleness_counter {
+ my $self = shift;
+ my ($trans_id) = @_;
- return $self->read_from_loc( $obj, $new_loc );
- }
- else {
- return;
- }
- }
- ##
- # Otherwise return actual value
- ##
- elsif ($signature eq SIG_DATA) {
- my $size;
- read( $fh, $size, $self->{data_size});
- $size = unpack($self->{data_pack}, $size);
+ # Hardcode staleness of 0 for the HEAD
+ return 0 unless $trans_id;
- my $value = '';
- if ($size) { read( $fh, $value, $size); }
- return $value;
- }
+ $self->storage->print_at(
+ $self->trans_loc + $self->txn_bitfield_len + $STALE_SIZE * ($trans_id - 1),
+ pack( $StP{$STALE_SIZE}, $self->get_txn_staleness_counter( $trans_id ) + 1 ),
+ );
+}
- ##
- # Key exists, but content is null
- ##
- return;
+sub get_entries {
+ my $self = shift;
+ return [ keys %{ $self->{entries}{$self->trans_id} ||= {} } ];
}
-sub get_bucket_value {
- ##
- # Fetch single value given tag and MD5 digested key.
- ##
+sub add_entry {
my $self = shift;
- my ($obj, $tag, $md5) = @_;
+ my ($trans_id, $loc) = @_;
+
+ $self->{entries}{$trans_id} ||= {};
+ $self->{entries}{$trans_id}{$loc} = undef;
+}
- my ($subloc, $offset) = $self->_find_in_buckets( $tag, $md5 );
- if ( $subloc ) {
- return $self->read_from_loc( $obj, $subloc );
+# If the buckets are being relocated because of a reindexing, the entries
+# mechanism needs to be made aware of it.
+sub reindex_entry {
+ my $self = shift;
+ my ($old_loc, $new_loc) = @_;
+
+ TRANS:
+ while ( my ($trans_id, $locs) = each %{ $self->{entries} } ) {
+ if ( exists $locs->{$old_loc} ) {
+ delete $locs->{$old_loc};
+ $locs->{$new_loc} = undef;
+ next TRANS;
+ }
}
- return;
}
-sub delete_bucket {
- ##
- # Delete single key/value pair given tag and MD5 digested key.
- ##
+sub clear_entries {
my $self = shift;
- my ($obj, $tag, $md5) = @_;
+ delete $self->{entries}{$self->trans_id};
+}
- my ($subloc, $offset) = $self->_find_in_buckets( $tag, $md5 );
- if ( $subloc ) {
- my $fh = $obj->_fh;
- seek($fh, $tag->{offset} + $offset + $obj->_root->{file_offset}, SEEK_SET);
- print( $fh substr($tag->{content}, $offset + $self->{bucket_size} ) );
- print( $fh chr(0) x $self->{bucket_size} );
+################################################################################
- return 1;
- }
- return;
+sub _apply_digest {
+ my $self = shift;
+ return $self->{digest}->(@_);
}
-sub bucket_exists {
- ##
- # Check existence of single key given tag and MD5 digested key.
- ##
- my $self = shift;
- my ($obj, $tag, $md5) = @_;
+sub _add_free_blist_sector { shift->_add_free_sector( 0, @_ ) }
+sub _add_free_data_sector { shift->_add_free_sector( 1, @_ ) }
+sub _add_free_index_sector { shift->_add_free_sector( 2, @_ ) }
+sub _add_free_sector { shift->_load_header->add_free_sector( @_ ) }
+
+sub _request_blist_sector { shift->_request_sector( 0, @_ ) }
+sub _request_data_sector { shift->_request_sector( 1, @_ ) }
+sub _request_index_sector { shift->_request_sector( 2, @_ ) }
+sub _request_sector { shift->_load_header->request_sector( @_ ) }
+
+################################################################################
+
+{
+ my %t = (
+ SIG_ARRAY => 'Reference',
+ SIG_HASH => 'Reference',
+ SIG_BLIST => 'BucketList',
+ SIG_INDEX => 'Index',
+ SIG_NULL => 'Null',
+ SIG_DATA => 'Scalar',
+ );
- my ($subloc, $offset) = $self->_find_in_buckets( $tag, $md5 );
- if ( $subloc ) {
- return 1;
+ my %class_for;
+ while ( my ($k,$v) = each %t ) {
+ $class_for{ DBM::Deep::Engine->$k } = "DBM::Deep::Engine::Sector::$v";
}
- return;
-}
-sub find_bucket_list {
- ##
- # Locate offset for bucket list, given digested key
- ##
- my $self = shift;
- my ($obj, $md5, $args) = @_;
- $args = {} unless $args;
+ sub load_sector {
+ my $self = shift;
+ my ($offset) = @_;
+
+ my $data = $self->get_data( $offset )
+ or return;#die "Cannot read from '$offset'\n";
+ my $type = substr( $$data, 0, 1 );
+ my $class = $class_for{ $type };
+ return $class->new({
+ engine => $self,
+ type => $type,
+ offset => $offset,
+ });
+ }
+ *_load_sector = \&load_sector;
- ##
- # Locate offset for bucket list using digest index system
- ##
- my $tag = $self->load_tag($obj, $obj->_base_offset)
- or $self->_throw_error( "INTERNAL ERROR - Cannot find tag" );
+ sub load_header {
+ my $self = shift;
- my $ch = 0;
- while ($tag->{signature} ne SIG_BLIST) {
- my $num = ord substr($md5, $ch, 1);
+ #XXX Does this mean we make too many objects? -RobK, 2008-06-23
+ return DBM::Deep::Engine::Sector::FileHeader->new({
+ engine => $self,
+ offset => 0,
+ });
+ }
+ *_load_header = \&load_header;
- my $ref_loc = $tag->{offset} + ($num * $self->{long_size});
- $tag = $self->index_lookup( $obj, $tag, $num );
+ sub get_data {
+ my $self = shift;
+ my ($offset, $size) = @_;
+ return unless defined $offset;
- if (!$tag) {
- if ( $args->{create} ) {
- my $fh = $obj->_fh;
- seek($fh, $ref_loc + $obj->_root->{file_offset}, SEEK_SET);
- print( $fh pack($self->{long_pack}, $obj->_root->{end}) );
+ unless ( exists $self->sector_cache->{$offset} ) {
+ # Don't worry about the header sector. It will manage itself.
+ return unless $offset;
- $tag = $self->create_tag(
- $obj, $obj->_root->{end},
- SIG_BLIST,
- chr(0) x $self->{bucket_list_size},
- );
+ if ( !defined $size ) {
+ my $type = $self->storage->read_at( $offset, 1 )
+ or die "($offset): Cannot read from '$offset' to find the type\n";
- $tag->{ref_loc} = $ref_loc;
- $tag->{ch} = $ch;
+ if ( $type eq $self->SIG_FREE ) {
+ return;
+ }
- last;
+ my $class = $class_for{$type}
+ or die "($offset): Cannot find class for '$type'\n";
+ $size = $class->size( $self )
+ or die "($offset): '$class' doesn't return a size\n";
+ $self->sector_cache->{$offset} = $type . $self->storage->read_at( undef, $size - 1 );
}
else {
- return;
+ $self->sector_cache->{$offset} = $self->storage->read_at( $offset, $size )
+ or return;
}
}
- $tag->{ch} = $ch;
- $tag->{ref_loc} = $ref_loc;
-
- $ch++;
+ return \$self->sector_cache->{$offset};
}
+}
+
+sub sector_cache {
+ my $self = shift;
+ return $self->{sector_cache} ||= {};
+}
- return $tag;
+sub clear_sector_cache {
+ my $self = shift;
+ $self->{sector_cache} = {};
}
-sub index_lookup {
- ##
- # Given index tag, lookup single entry in index and return .
- ##
+sub dirty_sectors {
my $self = shift;
- my ($obj, $tag, $index) = @_;
+ return $self->{dirty_sectors} ||= {};
+}
- my $location = unpack(
- $self->{long_pack},
- substr(
- $tag->{content},
- $index * $self->{long_size},
- $self->{long_size},
- ),
- );
+sub clear_dirty_sectors {
+ my $self = shift;
+ $self->{dirty_sectors} = {};
+}
- if (!$location) { return; }
+sub add_dirty_sector {
+ my $self = shift;
+ my ($offset) = @_;
- return $self->load_tag( $obj, $location );
+ $self->dirty_sectors->{ $offset } = undef;
}
-sub traverse_index {
- ##
- # Scan index and recursively step into deeper levels, looking for next key.
- ##
+sub flush {
my $self = shift;
- my ($obj, $offset, $ch, $force_return_next) = @_;
- my $tag = $self->load_tag($obj, $offset );
+ my $sectors = $self->dirty_sectors;
+ for my $offset (sort { $a <=> $b } keys %{ $sectors }) {
+ $self->storage->print_at( $offset, $self->sector_cache->{$offset} );
+ }
- my $fh = $obj->_fh;
+ $self->clear_dirty_sectors;
- if ($tag->{signature} ne SIG_BLIST) {
- my $content = $tag->{content};
- my $start = $obj->{return_next} ? 0 : ord(substr($obj->{prev_md5}, $ch, 1));
+ $self->clear_sector_cache;
+}
- for (my $index = $start; $index < 256; $index++) {
- my $subloc = unpack(
- $self->{long_pack},
- substr($content, $index * $self->{long_size}, $self->{long_size}),
- );
+################################################################################
- if ($subloc) {
- my $result = $self->traverse_index(
- $obj, $subloc, $ch + 1, $force_return_next,
- );
+sub lock_exclusive {
+ my $self = shift;
+ my ($obj) = @_;
+ return $self->storage->lock_exclusive( $obj );
+}
- if (defined($result)) { return $result; }
- }
- } # index loop
+sub lock_shared {
+ my $self = shift;
+ my ($obj) = @_;
+ return $self->storage->lock_shared( $obj );
+}
- $obj->{return_next} = 1;
- } # tag is an index
+sub unlock {
+ my $self = shift;
+ my ($obj) = @_;
- else {
- my $keys = $tag->{content};
- if ($force_return_next) { $obj->{return_next} = 1; }
-
- ##
- # Iterate through buckets, looking for a key match
- ##
- for (my $i = 0; $i < $self->{max_buckets}; $i++) {
- my ($key, $subloc) = $self->_get_key_subloc( $keys, $i );
-
- # End of bucket list -- return to outer loop
- if (!$subloc) {
- $obj->{return_next} = 1;
- last;
- }
- # Located previous key -- return next one found
- elsif ($key eq $obj->{prev_md5}) {
- $obj->{return_next} = 1;
- next;
- }
- # Seek to bucket location and skip over signature
- elsif ($obj->{return_next}) {
- seek($fh, $subloc + $obj->_root->{file_offset}, SEEK_SET);
-
- # Skip over value to get to plain key
- my $sig;
- read( $fh, $sig, SIG_SIZE );
-
- my $size;
- read( $fh, $size, $self->{data_size});
- $size = unpack($self->{data_pack}, $size);
- if ($size) { seek($fh, $size, SEEK_CUR); }
-
- # Read in plain key and return as scalar
- my $plain_key;
- read( $fh, $size, $self->{data_size});
- $size = unpack($self->{data_pack}, $size);
- if ($size) { read( $fh, $plain_key, $size); }
-
- return $plain_key;
- }
- }
+ my $rv = $self->storage->unlock( $obj );
- $obj->{return_next} = 1;
- } # tag is a bucket list
+ $self->flush if $rv;
- return;
+ return $rv;
}
-sub get_next_key {
- ##
- # Locate next key, given digested previous one
- ##
- my $self = shift;
- my ($obj) = @_;
+################################################################################
- $obj->{prev_md5} = $_[1] ? $_[1] : undef;
- $obj->{return_next} = 0;
+sub storage { $_[0]{storage} }
+sub byte_size { $_[0]{byte_size} }
+sub hash_size { $_[0]{hash_size} }
+sub hash_chars { $_[0]{hash_chars} }
+sub num_txns { $_[0]{num_txns} }
+sub max_buckets { $_[0]{max_buckets} }
+sub blank_md5 { chr(0) x $_[0]->hash_size }
+sub data_sector_size { $_[0]{data_sector_size} }
- ##
- # If the previous key was not specifed, start at the top and
- # return the first one found.
- ##
- if (!$obj->{prev_md5}) {
- $obj->{prev_md5} = chr(0) x $self->{hash_size};
- $obj->{return_next} = 1;
+# This is a calculated value
+sub txn_bitfield_len {
+ my $self = shift;
+ unless ( exists $self->{txn_bitfield_len} ) {
+ my $temp = ($self->num_txns) / 8;
+ if ( $temp > int( $temp ) ) {
+ $temp = int( $temp ) + 1;
+ }
+ $self->{txn_bitfield_len} = $temp;
}
-
- return $self->traverse_index( $obj, $obj->_base_offset, 0 );
+ return $self->{txn_bitfield_len};
}
-# Utilities
+sub trans_id { $_[0]{trans_id} }
+sub set_trans_id { $_[0]{trans_id} = $_[1] }
-sub _get_key_subloc {
+sub trans_loc { $_[0]{trans_loc} }
+sub set_trans_loc { $_[0]{trans_loc} = $_[1] }
+
+sub chains_loc { $_[0]{chains_loc} }
+sub set_chains_loc { $_[0]{chains_loc} = $_[1] }
+
+sub cache { $_[0]{cache} ||= {} }
+sub clear_cache { %{$_[0]->cache} = () }
+
+sub _dump_file {
my $self = shift;
- my ($keys, $idx) = @_;
+ $self->flush;
+
+ # Read the header
+ my $header_sector = DBM::Deep::Engine::Sector::FileHeader->new({
+ engine => $self,
+ });
- my ($key, $subloc) = unpack(
- "a$self->{hash_size} $self->{long_pack}",
- substr(
- $keys,
- ($idx * $self->{bucket_size}),
- $self->{bucket_size},
- ),
+ my %types = (
+ 0 => 'B',
+ 1 => 'D',
+ 2 => 'I',
);
- return ($key, $subloc);
-}
+ my %sizes = (
+ 'D' => $self->data_sector_size,
+ 'B' => DBM::Deep::Engine::Sector::BucketList->new({engine=>$self,offset=>1})->size,
+ 'I' => DBM::Deep::Engine::Sector::Index->new({engine=>$self,offset=>1})->size,
+ );
-sub _find_in_buckets {
- my $self = shift;
- my ($tag, $md5) = @_;
+ my $return = "";
+
+ # Filesize
+ $return .= "Size: " . (-s $self->storage->{fh}) . $/;
- BUCKET:
- for ( my $i = 0; $i < $self->{max_buckets}; $i++ ) {
- my ($key, $subloc) = $self->_get_key_subloc( $tag->{content}, $i );
+ # Header values
+ $return .= "NumTxns: " . $self->num_txns . $/;
- return ($subloc, $i * $self->{bucket_size}) unless $subloc;
+ # Read the free sector chains
+ my %sectors;
+ foreach my $multiple ( 0 .. 2 ) {
+ $return .= "Chains($types{$multiple}):";
+ my $old_loc = $self->chains_loc + $multiple * $self->byte_size;
+ while ( 1 ) {
+ my $loc = unpack(
+ $StP{$self->byte_size},
+ $self->storage->read_at( $old_loc, $self->byte_size ),
+ );
- next BUCKET if $key ne $md5;
+ # We're now out of free sectors of this kind.
+ unless ( $loc ) {
+ last;
+ }
- return ($subloc, $i * $self->{bucket_size});
+ $sectors{ $types{$multiple} }{ $loc } = undef;
+ $old_loc = $loc + SIG_SIZE + $STALE_SIZE;
+ $return .= " $loc";
+ }
+ $return .= $/;
}
- return;
+ my $spot = $header_sector->size;
+ SECTOR:
+ while ( $spot < $self->storage->{end} ) {
+ # Read each sector in order.
+ my $sector = $self->_load_sector( $spot );
+ if ( !$sector ) {
+ # Find it in the free-sectors that were found already
+ foreach my $type ( keys %sectors ) {
+ if ( exists $sectors{$type}{$spot} ) {
+ my $size = $sizes{$type};
+ $return .= sprintf "%08d: %s %04d\n", $spot, 'F' . $type, $size;
+ $spot += $size;
+ next SECTOR;
+ }
+ }
+
+ die "********\n$return\nDidn't find free sector for $spot in chains\n********\n";
+ }
+ else {
+ $return .= sprintf "%08d: %s %04d", $spot, $sector->type, $sector->size;
+ if ( $sector->type eq 'D' ) {
+ $return .= ' ' . $sector->data;
+ }
+ elsif ( $sector->type eq 'A' || $sector->type eq 'H' ) {
+ $return .= ' REF: ' . $sector->get_refcount;
+ }
+ elsif ( $sector->type eq 'B' ) {
+ foreach my $bucket ( $sector->chopped_up ) {
+ $return .= "\n ";
+ $return .= sprintf "%08d", unpack($StP{$self->byte_size},
+ substr( $bucket->[-1], $self->hash_size, $self->byte_size),
+ );
+ my $l = unpack( $StP{$self->byte_size},
+ substr( $bucket->[-1],
+ $self->hash_size + $self->byte_size,
+ $self->byte_size,
+ ),
+ );
+ $return .= sprintf " %08d", $l;
+ foreach my $txn ( 0 .. $self->num_txns - 2 ) {
+ my $l = unpack( $StP{$self->byte_size},
+ substr( $bucket->[-1],
+ $self->hash_size + 2 * $self->byte_size + $txn * ($self->byte_size + $STALE_SIZE),
+ $self->byte_size,
+ ),
+ );
+ $return .= sprintf " %08d", $l;
+ }
+ }
+ }
+ $return .= $/;
+
+ $spot += $sector->size;
+ }
+ }
+
+ return $return;
}
1;