use base qw/DBIx::Class::Storage::DBIHacks DBIx::Class::Storage/;
use mro 'c3';
-use Carp::Clan qw/^DBIx::Class|^Try::Tiny/;
-use DBI;
-use DBIx::Class::Storage::DBI::Cursor;
+use DBIx::Class::Carp;
+use DBIx::Class::Exception;
use Scalar::Util qw/refaddr weaken reftype blessed/;
use List::Util qw/first/;
-use Data::Dumper::Concise 'Dumper';
use Sub::Name 'subname';
use Try::Tiny;
-use File::Path 'make_path';
use overload ();
+use Data::Compare (); # no imports!!! guard against insane architecture
use namespace::clean;
-
# default cursor class, overridable in connect_info attributes
__PACKAGE__->cursor_class('DBIx::Class::Storage::DBI::Cursor');
__PACKAGE__->mk_group_accessors('inherited' => qw/
- sql_maker_class sql_limit_dialect sql_quote_char sql_name_sep
+ sql_limit_dialect sql_quote_char sql_name_sep
/);
-__PACKAGE__->sql_name_sep('.');
+__PACKAGE__->mk_group_accessors('component_class' => qw/sql_maker_class datetime_parser_type/);
__PACKAGE__->sql_maker_class('DBIx::Class::SQLMaker');
+__PACKAGE__->datetime_parser_type('DateTime::Format::MySQL'); # historic default
+
+__PACKAGE__->sql_name_sep('.');
__PACKAGE__->mk_group_accessors('simple' => qw/
_connect_info _dbi_connect_info _dbic_connect_attributes _driver_determined
- _dbh _dbh_details _conn_pid _sql_maker _sql_maker_opts
- transaction_depth _dbh_autocommit savepoints
+ _dbh _dbh_details _conn_pid _sql_maker _sql_maker_opts _dbh_autocommit
/);
# the values for these accessors are picked out (and deleted) from
my @capabilities = (qw/
insert_returning
insert_returning_bound
+
+ multicolumn_in
+
placeholders
typeless_placeholders
+
join_optimizer
/);
__PACKAGE__->mk_group_accessors( dbms_capability => map { "_supports_$_" } @capabilities );
build_datetime_parser
datetime_parser_type
+ txn_begin
insert
insert_bulk
update
delete
select
select_single
+ with_deferred_fk_checks
get_use_dbms_capability
get_dbms_capability
no strict qw/refs/;
no warnings qw/redefine/;
*{__PACKAGE__ ."::$meth"} = subname $meth => sub {
- if (not $_[0]->_driver_determined and not $_[0]->{_in_determine_driver}) {
+ if (
+ # only fire when invoked on an instance, a valid class-based invocation
+ # would e.g. be setting a default for an inherited accessor
+ ref $_[0]
+ and
+ ! $_[0]->_driver_determined
+ and
+ ! $_[0]->{_in_determine_driver}
+ ) {
$_[0]->_determine_driver;
# This for some reason crashes and burns on perl 5.8.1
my $cref = $_[0]->can ($meth);
goto $cref;
}
+
goto $orig;
};
}
-
=head1 NAME
DBIx::Class::Storage::DBI - DBI storage handler
sub new {
my $new = shift->next::method(@_);
- $new->transaction_depth(0);
$new->_sql_maker_opts({});
$new->_dbh_details({});
- $new->{savepoints} = [];
- $new->{_in_dbh_do} = 0;
+ $new->{_in_do_block} = 0;
$new->{_dbh_gen} = 0;
# read below to see what this does
next unless $_;
$_->{_dbh_gen}++; # so that existing cursors will drop as well
$_->_dbh(undef);
+
+ $_->transaction_depth(0);
+ $_->savepoints([]);
}
}
}
my $self = shift;
# some databases spew warnings on implicit disconnect
+ $self->_verify_pid;
local $SIG{__WARN__} = sub {};
$self->_dbh(undef);
$dbh->{InactiveDestroy} = 1;
$self->{_dbh_gen}++;
$self->_dbh(undef);
+ $self->transaction_depth(0);
+ $self->savepoints([]);
}
return;
=head3 DBIx::Class specific connection attributes
-In addition to the standard L<DBI|DBI/ATTRIBUTES_COMMON_TO_ALL_HANDLES>
-L<connection|DBI/Database_Handle_Attributes> attributes, DBIx::Class recognizes
+In addition to the standard L<DBI|DBI/ATTRIBUTES COMMON TO ALL HANDLES>
+L<connection|DBI/Database Handle Attributes> attributes, DBIx::Class recognizes
the following connection options. These options can be mixed in with your other
L<DBI> connection attributes, or placed in a separate hashref
(C<\%extra_attributes>) as shown above.
sub dbh_do {
my $self = shift;
- my $code = shift;
-
- my $dbh = $self->_get_dbh;
+ my $run_target = shift;
- return $self->$code($dbh, @_)
- if ( $self->{_in_dbh_do} || $self->{transaction_depth} );
-
- local $self->{_in_dbh_do} = 1;
+ # short circuit when we know there is no need for a runner
+ #
+ # FIXME - asumption may be wrong
+ # the rationale for the txn_depth check is that if this block is a part
+ # of a larger transaction, everything up to that point is screwed anyway
+ return $self->$run_target($self->_get_dbh, @_)
+ if $self->{_in_do_block} or $self->transaction_depth;
- # take a ref instead of a copy, to preserve coderef @_ aliasing semantics
my $args = \@_;
- return try {
- $self->$code ($dbh, @$args);
- } catch {
- $self->throw_exception($_) if $self->connected;
- # We were not connected - reconnect and retry, but let any
- # exception fall right through this time
- carp "Retrying $code after catching disconnected exception: $_"
- if $ENV{DBIC_DBIRETRY_DEBUG};
-
- $self->_populate_dbh;
- $self->$code($self->_dbh, @$args);
- };
+ DBIx::Class::Storage::BlockRunner->new(
+ storage => $self,
+ run_code => sub { $self->$run_target ($self->_get_dbh, @$args ) },
+ wrap_txn => 0,
+ retry_handler => sub { ! ( $_[0]->retried_count or $_[0]->storage->connected ) },
+ )->run;
}
-# This is basically a blend of dbh_do above and DBIx::Class::Storage::txn_do.
-# It also informs dbh_do to bypass itself while under the direction of txn_do,
-# via $self->{_in_dbh_do} (this saves some redundant eval and errorcheck, etc)
sub txn_do {
- my $self = shift;
- my $coderef = shift;
-
- ref $coderef eq 'CODE' or $self->throw_exception
- ('$coderef must be a CODE reference');
-
- local $self->{_in_dbh_do} = 1;
-
- my @result;
- my $want = wantarray;
-
- my $tried = 0;
- while(1) {
- my $exception;
-
- # take a ref instead of a copy, to preserve coderef @_ aliasing semantics
- my $args = \@_;
-
- try {
- $self->txn_begin;
- my $txn_start_depth = $self->transaction_depth;
- if($want) {
- @result = $coderef->(@$args);
- }
- elsif(defined $want) {
- $result[0] = $coderef->(@$args);
- }
- else {
- $coderef->(@$args);
- }
-
- my $delta_txn = $txn_start_depth - $self->transaction_depth;
- if ($delta_txn == 0) {
- $self->txn_commit;
- }
- elsif ($delta_txn != 1) {
- # an off-by-one would mean we fired a rollback
- carp "Unexpected reduction of transaction depth by $delta_txn after execution of $coderef";
- }
- } catch {
- $exception = $_;
- };
-
- if(! defined $exception) { return wantarray ? @result : $result[0] }
-
- if($self->transaction_depth > 1 || $tried++ || $self->connected) {
- my $rollback_exception;
- try { $self->txn_rollback } catch { $rollback_exception = shift };
- if(defined $rollback_exception) {
- my $exception_class = "DBIx::Class::Storage::NESTED_ROLLBACK_EXCEPTION";
- $self->throw_exception($exception) # propagate nested rollback
- if $rollback_exception =~ /$exception_class/;
-
- $self->throw_exception(
- "Transaction aborted: ${exception}. "
- . "Rollback failed: ${rollback_exception}"
- );
- }
- $self->throw_exception($exception)
- }
-
- # We were not connected, and was first try - reconnect and retry
- # via the while loop
- carp "Retrying $coderef after catching disconnected exception: $exception"
- if $ENV{DBIC_TXNRETRY_DEBUG};
- $self->_populate_dbh;
- }
+ $_[0]->_get_dbh; # connects or reconnects on pid change, necessary to grab correct txn_depth
+ shift->next::method(@_);
}
=head2 disconnect
$self->_do_connection_actions(disconnect_call_ => $_) for @actions;
- $self->_dbh_rollback unless $self->_dbh_autocommit;
+ # stops the "implicit rollback on disconnect" warning
+ $self->_exec_txn_rollback unless $self->_dbh_autocommit;
%{ $self->_dbh->{CachedKids} } = ();
$self->_dbh->disconnect;
my ($self) = @_;
unless ($self->_sql_maker) {
my $sql_maker_class = $self->sql_maker_class;
- $self->ensure_class_loaded ($sql_maker_class);
my %opts = %{$self->_sql_maker_opts||{}};
my $dialect =
$self->_driver_determined(1);
+ Class::C3->reinitialize() if DBIx::Class::_ENV_::OLD_MRO;
+
$self->_init; # run driver-specific initializations
$self->_run_connection_actions
my $attrs = shift @do_args;
my @bind = map { [ undef, $_ ] } @do_args;
- $self->_query_start($sql, @bind);
+ $self->_query_start($sql, \@bind);
$self->_get_dbh->do($sql, $attrs, @do_args);
- $self->_query_end($sql, @bind);
+ $self->_query_end($sql, \@bind);
}
return $self;
try {
if(ref $info[0] eq 'CODE') {
- $dbh = $info[0]->();
+ $dbh = $info[0]->();
}
else {
- $dbh = DBI->connect(@info);
+ require DBI;
+ $dbh = DBI->connect(@info);
}
if (!$dbh) {
else {
# the handler may be invoked by something totally out of
# the scope of DBIC
- croak ("DBI Exception (unhandled by DBIC, ::Schema GCed): $_[0]");
+ DBIx::Class::Exception->throw("DBI Exception (unhandled by DBIC, ::Schema GCed): $_[0]");
}
}, '__DBIC__DBH__ERROR__HANDLER__';
}->($self, $dbh);
$dbh;
}
-sub svp_begin {
- my ($self, $name) = @_;
-
- $name = $self->_svp_generate_name
- unless defined $name;
-
- $self->throw_exception ("You can't use savepoints outside a transaction")
- if $self->{transaction_depth} == 0;
-
- $self->throw_exception ("Your Storage implementation doesn't support savepoints")
- unless $self->can('_svp_begin');
-
- push @{ $self->{savepoints} }, $name;
-
- $self->debugobj->svp_begin($name) if $self->debug;
-
- return $self->_svp_begin($name);
-}
-
-sub svp_release {
- my ($self, $name) = @_;
-
- $self->throw_exception ("You can't use savepoints outside a transaction")
- if $self->{transaction_depth} == 0;
-
- $self->throw_exception ("Your Storage implementation doesn't support savepoints")
- unless $self->can('_svp_release');
-
- if (defined $name) {
- $self->throw_exception ("Savepoint '$name' does not exist")
- unless grep { $_ eq $name } @{ $self->{savepoints} };
-
- # Dig through the stack until we find the one we are releasing. This keeps
- # the stack up to date.
- my $svp;
-
- do { $svp = pop @{ $self->{savepoints} } } while $svp ne $name;
- } else {
- $name = pop @{ $self->{savepoints} };
- }
-
- $self->debugobj->svp_release($name) if $self->debug;
-
- return $self->_svp_release($name);
-}
-
-sub svp_rollback {
- my ($self, $name) = @_;
-
- $self->throw_exception ("You can't use savepoints outside a transaction")
- if $self->{transaction_depth} == 0;
-
- $self->throw_exception ("Your Storage implementation doesn't support savepoints")
- unless $self->can('_svp_rollback');
-
- if (defined $name) {
- # If they passed us a name, verify that it exists in the stack
- unless(grep({ $_ eq $name } @{ $self->{savepoints} })) {
- $self->throw_exception("Savepoint '$name' does not exist!");
- }
-
- # Dig through the stack until we find the one we are releasing. This keeps
- # the stack up to date.
- while(my $s = pop(@{ $self->{savepoints} })) {
- last if($s eq $name);
- }
- # Add the savepoint back to the stack, as a rollback doesn't remove the
- # named savepoint, only everything after it.
- push(@{ $self->{savepoints} }, $name);
- } else {
- # We'll assume they want to rollback to the last savepoint
- $name = $self->{savepoints}->[-1];
- }
-
- $self->debugobj->svp_rollback($name) if $self->debug;
-
- return $self->_svp_rollback($name);
-}
-
-sub _svp_generate_name {
- my ($self) = @_;
- return 'savepoint_'.scalar(@{ $self->{'savepoints'} });
-}
-
sub txn_begin {
my $self = shift;
# this means we have not yet connected and do not know the AC status
- # (e.g. coderef $dbh)
+ # (e.g. coderef $dbh), need a full-fledged connection check
if (! defined $self->_dbh_autocommit) {
$self->ensure_connected;
}
- # otherwise re-connect on pid changes, so
- # that the txn_depth is adjusted properly
- # the lightweight _get_dbh is good enoug here
- # (only superficial handle check, no pings)
+ # Otherwise simply connect or re-connect on pid changes
else {
$self->_get_dbh;
}
- if($self->transaction_depth == 0) {
- $self->debugobj->txn_begin()
- if $self->debug;
- $self->_dbh_begin_work;
- }
- elsif ($self->auto_savepoint) {
- $self->svp_begin;
- }
- $self->{transaction_depth}++;
+ $self->next::method(@_);
}
-sub _dbh_begin_work {
+sub _exec_txn_begin {
my $self = shift;
# if the user is utilizing txn_do - good for him, otherwise we need to
# We do this via ->dbh_do instead of ->dbh, so that the ->dbh "ping"
# will be replaced by a failure of begin_work itself (which will be
# then retried on reconnect)
- if ($self->{_in_dbh_do}) {
+ if ($self->{_in_do_block}) {
$self->_dbh->begin_work;
} else {
$self->dbh_do(sub { $_[1]->begin_work });
sub txn_commit {
my $self = shift;
- if (! $self->_dbh) {
- $self->throw_exception('cannot COMMIT on a disconnected handle');
- }
- elsif ($self->{transaction_depth} == 1) {
- $self->debugobj->txn_commit()
- if ($self->debug);
- $self->_dbh_commit;
- $self->{transaction_depth} = 0
- if $self->_dbh_autocommit;
- }
- elsif($self->{transaction_depth} > 1) {
- $self->{transaction_depth}--;
- $self->svp_release
- if $self->auto_savepoint;
- }
- elsif (! $self->_dbh->FETCH('AutoCommit') ) {
- carp "Storage transaction_depth $self->{transaction_depth} does not match "
- ."false AutoCommit of $self->{_dbh}, attempting COMMIT anyway";
+ $self->_verify_pid if $self->_dbh;
+ $self->throw_exception("Unable to txn_commit() on a disconnected storage")
+ unless $self->_dbh;
- $self->debugobj->txn_commit()
- if ($self->debug);
- $self->_dbh_commit;
- $self->{transaction_depth} = 0
- if $self->_dbh_autocommit;
- }
- else {
- $self->throw_exception( 'Refusing to commit without a started transaction' );
+ # esoteric case for folks using external $dbh handles
+ if (! $self->transaction_depth and ! $self->_dbh->FETCH('AutoCommit') ) {
+ carp "Storage transaction_depth 0 does not match "
+ ."false AutoCommit of $self->{_dbh}, attempting COMMIT anyway";
+ $self->transaction_depth(1);
}
+
+ $self->next::method(@_);
+
+ # if AutoCommit is disabled txn_depth never goes to 0
+ # as a new txn is started immediately on commit
+ $self->transaction_depth(1) if (
+ !$self->transaction_depth
+ and
+ defined $self->_dbh_autocommit
+ and
+ ! $self->_dbh_autocommit
+ );
}
-sub _dbh_commit {
- my $self = shift;
- my $dbh = $self->_dbh
- or $self->throw_exception('cannot COMMIT on a disconnected handle');
- $dbh->commit;
+sub _exec_txn_commit {
+ shift->_dbh->commit;
}
sub txn_rollback {
my $self = shift;
- my $dbh = $self->_dbh;
- try {
- if ($self->{transaction_depth} == 1) {
- $self->debugobj->txn_rollback()
- if ($self->debug);
- $self->{transaction_depth} = 0
- if $self->_dbh_autocommit;
- $self->_dbh_rollback;
- }
- elsif($self->{transaction_depth} > 1) {
- $self->{transaction_depth}--;
- if ($self->auto_savepoint) {
- $self->svp_rollback;
- $self->svp_release;
- }
- }
- else {
- die DBIx::Class::Storage::NESTED_ROLLBACK_EXCEPTION->new;
- }
+
+ $self->_verify_pid if $self->_dbh;
+ $self->throw_exception("Unable to txn_rollback() on a disconnected storage")
+ unless $self->_dbh;
+
+ # esoteric case for folks using external $dbh handles
+ if (! $self->transaction_depth and ! $self->_dbh->FETCH('AutoCommit') ) {
+ carp "Storage transaction_depth 0 does not match "
+ ."false AutoCommit of $self->{_dbh}, attempting ROLLBACK anyway";
+ $self->transaction_depth(1);
}
- catch {
- my $exception_class = "DBIx::Class::Storage::NESTED_ROLLBACK_EXCEPTION";
- if ($_ !~ /$exception_class/) {
- # ensure that a failed rollback resets the transaction depth
- $self->{transaction_depth} = $self->_dbh_autocommit ? 0 : 1;
- }
+ $self->next::method(@_);
- $self->throw_exception($_)
- };
+ # if AutoCommit is disabled txn_depth never goes to 0
+ # as a new txn is started immediately on commit
+ $self->transaction_depth(1) if (
+ !$self->transaction_depth
+ and
+ defined $self->_dbh_autocommit
+ and
+ ! $self->_dbh_autocommit
+ );
}
-sub _dbh_rollback {
- my $self = shift;
- my $dbh = $self->_dbh
- or $self->throw_exception('cannot ROLLBACK on a disconnected handle');
- $dbh->rollback;
+sub _exec_txn_rollback {
+ shift->_dbh->rollback;
+}
+
+# generate some identical methods
+for my $meth (qw/svp_begin svp_release svp_rollback/) {
+ no strict qw/refs/;
+ *{__PACKAGE__ ."::$meth"} = subname $meth => sub {
+ my $self = shift;
+ $self->_verify_pid if $self->_dbh;
+ $self->throw_exception("Unable to $meth() on a disconnected storage")
+ unless $self->_dbh;
+ $self->next::method(@_);
+ };
}
# This used to be the top-half of _execute. It was split out to make it
# easier to override in NoBindVars without duping the rest. It takes up
# all of _execute's args, and emits $sql, @bind.
sub _prep_for_execute {
- my ($self, $op, $extra_bind, $ident, $args) = @_;
+ #my ($self, $op, $ident, $args) = @_;
+ return shift->_gen_sql_bind(@_)
+}
- if( blessed $ident && $ident->isa("DBIx::Class::ResultSource") ) {
- $ident = $ident->from();
- }
+sub _gen_sql_bind {
+ my ($self, $op, $ident, $args) = @_;
- my ($sql, @bind) = $self->sql_maker->$op($ident, @$args);
+ my ($sql, @bind) = $self->sql_maker->$op(
+ blessed($ident) ? $ident->from : $ident,
+ @$args,
+ );
- unshift(@bind,
- map { ref $_ eq 'ARRAY' ? $_ : [ '!!dummy', $_ ] } @$extra_bind)
- if $extra_bind;
- return ($sql, \@bind);
+ if (
+ ! $ENV{DBIC_DT_SEARCH_OK}
+ and
+ $op eq 'select'
+ and
+ first { blessed($_->[1]) && $_->[1]->isa('DateTime') } @bind
+ ) {
+ carp_unique 'DateTime objects passed to search() are not supported '
+ . 'properly (InflateColumn::DateTime formats and settings are not '
+ . 'respected.) See "Formatting DateTime objects in queries" in '
+ . 'DBIx::Class::Manual::Cookbook. To disable this warning for good '
+ . 'set $ENV{DBIC_DT_SEARCH_OK} to true'
+ }
+
+ return( $sql, $self->_resolve_bindattrs(
+ $ident, [ @{$args->[2]{bind}||[]}, @bind ]
+ ));
}
+sub _resolve_bindattrs {
+ my ($self, $ident, $bind, $colinfos) = @_;
-sub _fix_bind_params {
- my ($self, @bind) = @_;
+ $colinfos ||= {};
- ### Turn @bind from something like this:
- ### ( [ "artist", 1 ], [ "cdid", 1, 3 ] )
- ### to this:
- ### ( "'1'", "'1'", "'3'" )
- return
- map {
- if ( defined( $_ && $_->[1] ) ) {
- map { qq{'$_'}; } @{$_}[ 1 .. $#$_ ];
- }
- else { q{NULL}; }
- } @bind;
-}
+ my $resolve_bindinfo = sub {
+ #my $infohash = shift;
-sub _query_start {
- my ( $self, $sql, @bind ) = @_;
+ %$colinfos = %{ $self->_resolve_column_info($ident) }
+ unless keys %$colinfos;
+
+ my $ret;
+ if (my $col = $_[0]->{dbic_colname}) {
+ $ret = { %{$_[0]} };
- if ( $self->debug ) {
- @bind = $self->_fix_bind_params(@bind);
+ $ret->{sqlt_datatype} ||= $colinfos->{$col}{data_type}
+ if $colinfos->{$col}{data_type};
- $self->debugobj->query_start( $sql, @bind );
+ $ret->{sqlt_size} ||= $colinfos->{$col}{size}
+ if $colinfos->{$col}{size};
}
-}
-sub _query_end {
- my ( $self, $sql, @bind ) = @_;
+ $ret || $_[0];
+ };
- if ( $self->debug ) {
- @bind = $self->_fix_bind_params(@bind);
- $self->debugobj->query_end( $sql, @bind );
+ return [ map {
+ if (ref $_ ne 'ARRAY') {
+ [{}, $_]
+ }
+ elsif (! defined $_->[0]) {
+ [{}, $_->[1]]
+ }
+ elsif (ref $_->[0] eq 'HASH') {
+ [
+ ($_->[0]{dbd_attrs} or $_->[0]{sqlt_datatype}) ? $_->[0] : $resolve_bindinfo->($_->[0]),
+ $_->[1]
+ ]
}
+ elsif (ref $_->[0] eq 'SCALAR') {
+ [ { sqlt_datatype => ${$_->[0]} }, $_->[1] ]
+ }
+ else {
+ [ $resolve_bindinfo->({ dbic_colname => $_->[0] }), $_->[1] ]
+ }
+ } @$bind ];
}
-sub _dbh_execute {
- my ($self, $dbh, $op, $extra_bind, $ident, $bind_attributes, @args) = @_;
+sub _format_for_trace {
+ #my ($self, $bind) = @_;
- my ($sql, $bind) = $self->_prep_for_execute($op, $extra_bind, $ident, \@args);
+ ### Turn @bind from something like this:
+ ### ( [ "artist", 1 ], [ \%attrs, 3 ] )
+ ### to this:
+ ### ( "'1'", "'3'" )
- $self->_query_start( $sql, @$bind );
+ map {
+ defined( $_ && $_->[1] )
+ ? qq{'$_->[1]'}
+ : q{NULL}
+ } @{$_[1] || []};
+}
- my $sth = $self->sth($sql,$op);
+sub _query_start {
+ my ( $self, $sql, $bind ) = @_;
- my $placeholder_index = 1;
+ $self->debugobj->query_start( $sql, $self->_format_for_trace($bind) )
+ if $self->debug;
+}
- foreach my $bound (@$bind) {
- my $attributes = {};
- my($column_name, @data) = @$bound;
+sub _query_end {
+ my ( $self, $sql, $bind ) = @_;
- if ($bind_attributes) {
- $attributes = $bind_attributes->{$column_name}
- if defined $bind_attributes->{$column_name};
- }
+ $self->debugobj->query_end( $sql, $self->_format_for_trace($bind) )
+ if $self->debug;
+}
- foreach my $data (@data) {
- my $ref = ref $data;
+my $sba_compat;
+sub _dbi_attrs_for_bind {
+ my ($self, $ident, $bind) = @_;
- if ($ref and overload::Method($data, '""') ) {
- $data = "$data";
+ if (! defined $sba_compat) {
+ $self->_determine_driver;
+ $sba_compat = $self->can('source_bind_attributes') == \&source_bind_attributes
+ ? 0
+ : 1
+ ;
+ }
+
+ my $sba_attrs;
+ if ($sba_compat) {
+ my $class = ref $self;
+ carp_unique (
+ "The source_bind_attributes() override in $class relies on a deprecated codepath. "
+ .'You are strongly advised to switch your code to override bind_attribute_by_datatype() '
+ .'instead. This legacy compat shim will also disappear some time before DBIC 0.09'
+ );
+
+ my $sba_attrs = $self->source_bind_attributes
+ }
+
+ my @attrs;
+
+ for (map { $_->[0] } @$bind) {
+ push @attrs, do {
+ if (exists $_->{dbd_attrs}) {
+ $_->{dbd_attrs}
}
- elsif ($ref eq 'SCALAR') { # any scalarrefs are assumed to be bind_inouts
- $sth->bind_param_inout(
- $placeholder_index++,
- $data,
- $self->_max_column_bytesize($ident, $column_name),
- $attributes
- );
- next;
+ elsif($_->{sqlt_datatype}) {
+ # cache the result in the dbh_details hash, as it can not change unless
+ # we connect to something else
+ my $cache = $self->_dbh_details->{_datatype_map_cache} ||= {};
+ if (not exists $cache->{$_->{sqlt_datatype}}) {
+ $cache->{$_->{sqlt_datatype}} = $self->bind_attribute_by_data_type($_->{sqlt_datatype}) || undef;
+ }
+ $cache->{$_->{sqlt_datatype}};
+ }
+ elsif ($sba_attrs and $_->{dbic_colname}) {
+ $sba_attrs->{$_->{dbic_colname}} || undef;
}
+ else {
+ undef; # always push something at this position
+ }
+ }
+ }
+
+ return \@attrs;
+}
+
+sub _execute {
+ my ($self, $op, $ident, @args) = @_;
- $sth->bind_param($placeholder_index++, $data, $attributes);
+ my ($sql, $bind) = $self->_prep_for_execute($op, $ident, \@args);
+
+ shift->dbh_do( # retry over disconnects
+ '_dbh_execute',
+ $sql,
+ $bind,
+ $self->_dbi_attrs_for_bind($ident, $bind)
+ );
+}
+
+sub _dbh_execute {
+ my ($self, undef, $sql, $bind, $bind_attrs) = @_;
+
+ $self->_query_start( $sql, $bind );
+ my $sth = $self->_sth($sql);
+
+ for my $i (0 .. $#$bind) {
+ if (ref $bind->[$i][1] eq 'SCALAR') { # any scalarrefs are assumed to be bind_inouts
+ $sth->bind_param_inout(
+ $i + 1, # bind params counts are 1-based
+ $bind->[$i][1],
+ $bind->[$i][0]{dbd_size} || $self->_max_column_bytesize($bind->[$i][0]), # size
+ $bind_attrs->[$i],
+ );
+ }
+ else {
+ $sth->bind_param(
+ $i + 1,
+ (ref $bind->[$i][1] and overload::Method($bind->[$i][1], '""'))
+ ? "$bind->[$i][1]"
+ : $bind->[$i][1]
+ ,
+ $bind_attrs->[$i],
+ );
}
}
$sth->errstr || $sth->err || 'Unknown error: execute() returned false, but error flags were not set...'
) if !$rv;
- $self->_query_end( $sql, @$bind );
+ $self->_query_end( $sql, $bind );
return (wantarray ? ($rv, $sth, @$bind) : $rv);
}
-sub _execute {
- my $self = shift;
- $self->dbh_do('_dbh_execute', @_); # retry over disconnects
-}
-
sub _prefetch_autovalues {
my ($self, $source, $to_insert) = @_;
! exists $to_insert->{$col}
or
ref $to_insert->{$col} eq 'SCALAR'
+ or
+ (ref $to_insert->{$col} eq 'REF' and ref ${$to_insert->{$col}} eq 'ARRAY')
)
) {
$values{$col} = $self->_sequence_fetch(
my $prefetched_values = $self->_prefetch_autovalues($source, $to_insert);
- # fuse the values
+ # fuse the values, but keep a separate list of prefetched_values so that
+ # they can be fused once again with the final return
$to_insert = { %$to_insert, %$prefetched_values };
- # list of primary keys we try to fetch from the database
- # both not-exsists and scalarrefs are considered
- my %fetch_pks;
- for ($source->primary_columns) {
- $fetch_pks{$_} = scalar keys %fetch_pks # so we can preserve order for prettyness
- if ! exists $to_insert->{$_} or ref $to_insert->{$_} eq 'SCALAR';
- }
+ my $col_infos = $source->columns_info;
+ my %pcols = map { $_ => 1 } $source->primary_columns;
+ my %retrieve_cols;
+ for my $col ($source->columns) {
+ # nothing to retrieve when explicit values are supplied
+ next if (defined $to_insert->{$col} and ! (
+ ref $to_insert->{$col} eq 'SCALAR'
+ or
+ (ref $to_insert->{$col} eq 'REF' and ref ${$to_insert->{$col}} eq 'ARRAY')
+ ));
+
+ # the 'scalar keys' is a trick to preserve the ->columns declaration order
+ $retrieve_cols{$col} = scalar keys %retrieve_cols if (
+ $pcols{$col}
+ or
+ $col_infos->{$col}{retrieve_on_insert}
+ );
+ };
my ($sqla_opts, @ir_container);
- if ($self->_use_insert_returning) {
+ if (%retrieve_cols and $self->_use_insert_returning) {
+ $sqla_opts->{returning_container} = \@ir_container
+ if $self->_use_insert_returning_bound;
- # retain order as declared in the resultsource
- for (sort { $fetch_pks{$a} <=> $fetch_pks{$b} } keys %fetch_pks ) {
- push @{$sqla_opts->{returning}}, $_;
- $sqla_opts->{returning_container} = \@ir_container
- if $self->_use_insert_returning_bound;
- }
+ $sqla_opts->{returning} = [
+ sort { $retrieve_cols{$a} <=> $retrieve_cols{$b} } keys %retrieve_cols
+ ];
}
- my $bind_attributes = $self->source_bind_attributes($source);
-
- my ($rv, $sth) = $self->_execute('insert' => [], $source, $bind_attributes, $to_insert, $sqla_opts);
-
- my %returned_cols;
+ my ($rv, $sth) = $self->_execute('insert', $source, $to_insert, $sqla_opts);
- if (my $retlist = $sqla_opts->{returning}) {
+ my %returned_cols = %$to_insert;
+ if (my $retlist = $sqla_opts->{returning}) { # if IR is supported - we will get everything in one set
@ir_container = try {
local $SIG{__WARN__} = sub {};
my @r = $sth->fetchrow_array;
@returned_cols{@$retlist} = @ir_container if @ir_container;
}
+ else {
+ # pull in PK if needed and then everything else
+ if (my @missing_pri = grep { $pcols{$_} } keys %retrieve_cols) {
+
+ $self->throw_exception( "Missing primary key but Storage doesn't support last_insert_id" )
+ unless $self->can('last_insert_id');
+
+ my @pri_values = $self->last_insert_id($source, @missing_pri);
+
+ $self->throw_exception( "Can't get last insert id" )
+ unless (@pri_values == @missing_pri);
+
+ @returned_cols{@missing_pri} = @pri_values;
+ delete $retrieve_cols{$_} for @missing_pri;
+ }
+
+ # if there is more left to pull
+ if (%retrieve_cols) {
+ $self->throw_exception(
+ 'Unable to retrieve additional columns without a Primary Key on ' . $source->source_name
+ ) unless %pcols;
+
+ my @left_to_fetch = sort { $retrieve_cols{$a} <=> $retrieve_cols{$b} } keys %retrieve_cols;
+
+ my $cur = DBIx::Class::ResultSet->new($source, {
+ where => { map { $_ => $returned_cols{$_} } (keys %pcols) },
+ select => \@left_to_fetch,
+ })->cursor;
+
+ @returned_cols{@left_to_fetch} = $cur->next;
+
+ $self->throw_exception('Duplicate row returned for PK-search after fresh insert')
+ if scalar $cur->next;
+ }
+ }
return { %$prefetched_values, %returned_cols };
}
-
-## Currently it is assumed that all values passed will be "normal", i.e. not
-## scalar refs, or at least, all the same type as the first set, the statement is
-## only prepped once.
sub insert_bulk {
my ($self, $source, $cols, $data) = @_;
- my %colvalues;
- @colvalues{@$cols} = (0..$#$cols);
+ my @col_range = (0..$#$cols);
- for my $i (0..$#$cols) {
- my $first_val = $data->[0][$i];
- next unless ref $first_val eq 'SCALAR';
+ # FIXME - perhaps this is not even needed? does DBI stringify?
+ #
+ # forcibly stringify whatever is stringifiable
+ # ResultSet::populate() hands us a copy - safe to mangle
+ for my $r (0 .. $#$data) {
+ for my $c (0 .. $#{$data->[$r]}) {
+ $data->[$r][$c] = "$data->[$r][$c]"
+ if ( ref $data->[$r][$c] and overload::Method($data->[$r][$c], '""') );
+ }
+ }
- $colvalues{ $cols->[$i] } = $first_val;
+ my $colinfo_cache = {}; # since we will run _resolve_bindattrs on the same $source a lot
+
+ # get a slice type index based on first row of data
+ # a "column" in this context may refer to more than one bind value
+ # e.g. \[ '?, ?', [...], [...] ]
+ #
+ # construct the value type index - a description of values types for every
+ # per-column slice of $data:
+ #
+ # nonexistent - nonbind literal
+ # 0 - regular value
+ # [] of bindattrs - resolved attribute(s) of bind(s) passed via literal+bind \[] combo
+ #
+ # also construct the column hash to pass to the SQL generator. For plain
+ # (non literal) values - convert the members of the first row into a
+ # literal+bind combo, with extra positional info in the bind attr hashref.
+ # This will allow us to match the order properly, and is so contrived
+ # because a user-supplied literal/bind (or something else specific to a
+ # resultsource and/or storage driver) can inject extra binds along the
+ # way, so one can't rely on "shift positions" ordering at all. Also we
+ # can't just hand SQLA a set of some known "values" (e.g. hashrefs that
+ # can be later matched up by address), because we want to supply a real
+ # value on which perhaps e.g. datatype checks will be performed
+ my ($proto_data, $value_type_idx);
+ for my $i (@col_range) {
+ my $colname = $cols->[$i];
+ if (ref $data->[0][$i] eq 'SCALAR') {
+ # no bind value at all - no type
+
+ $proto_data->{$colname} = $data->[0][$i];
+ }
+ elsif (ref $data->[0][$i] eq 'REF' and ref ${$data->[0][$i]} eq 'ARRAY' ) {
+ # repack, so we don't end up mangling the original \[]
+ my ($sql, @bind) = @${$data->[0][$i]};
+
+ # normalization of user supplied stuff
+ my $resolved_bind = $self->_resolve_bindattrs(
+ $source, \@bind, $colinfo_cache,
+ );
+
+ # store value-less (attrs only) bind info - we will be comparing all
+ # supplied binds against this for sanity
+ $value_type_idx->{$i} = [ map { $_->[0] } @$resolved_bind ];
+
+ $proto_data->{$colname} = \[ $sql, map { [
+ # inject slice order to use for $proto_bind construction
+ { %{$resolved_bind->[$_][0]}, _bind_data_slice_idx => $i }
+ =>
+ $resolved_bind->[$_][1]
+ ] } (0 .. $#bind)
+ ];
+ }
+ else {
+ $value_type_idx->{$i} = 0;
+
+ $proto_data->{$colname} = \[ '?', [
+ { dbic_colname => $colname, _bind_data_slice_idx => $i }
+ =>
+ $data->[0][$i]
+ ] ];
+ }
+ }
+
+ my ($sql, $proto_bind) = $self->_prep_for_execute (
+ 'insert',
+ $source,
+ [ $proto_data ],
+ );
+
+ if (! @$proto_bind and keys %$value_type_idx) {
+ # if the bindlist is empty and we had some dynamic binds, this means the
+ # storage ate them away (e.g. the NoBindVars component) and interpolated
+ # them directly into the SQL. This obviously can't be good for multi-inserts
+ $self->throw_exception('Cannot insert_bulk without support for placeholders');
}
- # check for bad data and stringify stringifiable objects
- my $bad_slice = sub {
- my ($msg, $col_idx, $slice_idx) = @_;
+ # sanity checks
+ # FIXME - devise a flag "no babysitting" or somesuch to shut this off
+ #
+ # use an error reporting closure for convenience (less to pass)
+ my $bad_slice_report_cref = sub {
+ my ($msg, $r_idx, $c_idx) = @_;
$self->throw_exception(sprintf "%s for column '%s' in populate slice:\n%s",
$msg,
- $cols->[$col_idx],
+ $cols->[$c_idx],
do {
- local $Data::Dumper::Maxdepth = 1; # don't dump objects, if any
- Dumper {
- map { $cols->[$_] => $data->[$slice_idx][$_] } (0 .. $#$cols)
- },
+ require Data::Dumper::Concise;
+ local $Data::Dumper::Maxdepth = 5;
+ Data::Dumper::Concise::Dumper ({
+ map { $cols->[$_] =>
+ $data->[$r_idx][$_]
+ } @col_range
+ }),
}
);
};
- for my $datum_idx (0..$#$data) {
- my $datum = $data->[$datum_idx];
+ for my $col_idx (@col_range) {
+ my $reference_val = $data->[0][$col_idx];
- for my $col_idx (0..$#$cols) {
- my $val = $datum->[$col_idx];
- my $sqla_bind = $colvalues{ $cols->[$col_idx] };
- my $is_literal_sql = (ref $sqla_bind) eq 'SCALAR';
+ for my $row_idx (1..$#$data) { # we are comparing against what we got from [0] above, hence start from 1
+ my $val = $data->[$row_idx][$col_idx];
- if ($is_literal_sql) {
- if (not ref $val) {
- $bad_slice->('bind found where literal SQL expected', $col_idx, $datum_idx);
+ if (! exists $value_type_idx->{$col_idx}) { # literal no binds
+ if (ref $val ne 'SCALAR') {
+ $bad_slice_report_cref->(
+ "Incorrect value (expecting SCALAR-ref \\'$$reference_val')",
+ $row_idx,
+ $col_idx,
+ );
}
- elsif ((my $reftype = ref $val) ne 'SCALAR') {
- $bad_slice->("$reftype reference found where literal SQL expected",
- $col_idx, $datum_idx);
+ elsif ($$val ne $$reference_val) {
+ $bad_slice_report_cref->(
+ "Inconsistent literal SQL value (expecting \\'$$reference_val')",
+ $row_idx,
+ $col_idx,
+ );
}
- elsif ($$val ne $$sqla_bind){
- $bad_slice->("inconsistent literal SQL value, expecting: '$$sqla_bind'",
- $col_idx, $datum_idx);
+ }
+ elsif (! $value_type_idx->{$col_idx} ) { # regular non-literal value
+ if (ref $val eq 'SCALAR' or (ref $val eq 'REF' and ref $$val eq 'ARRAY') ) {
+ $bad_slice_report_cref->("Literal SQL found where a plain bind value is expected", $row_idx, $col_idx);
}
}
- elsif (my $reftype = ref $val) {
- require overload;
- if (overload::Method($val, '""')) {
- $datum->[$col_idx] = "".$val;
+ else { # binds from a \[], compare type and attrs
+ if (ref $val ne 'REF' or ref $$val ne 'ARRAY') {
+ $bad_slice_report_cref->(
+ "Incorrect value (expecting ARRAYREF-ref \\['${$reference_val}->[0]', ... ])",
+ $row_idx,
+ $col_idx,
+ );
}
- else {
- $bad_slice->("$reftype reference found where bind expected",
- $col_idx, $datum_idx);
+ # start drilling down and bail out early on identical refs
+ elsif (
+ $reference_val != $val
+ or
+ $$reference_val != $$val
+ ) {
+ if (${$val}->[0] ne ${$reference_val}->[0]) {
+ $bad_slice_report_cref->(
+ "Inconsistent literal/bind SQL (expecting \\['${$reference_val}->[0]', ... ])",
+ $row_idx,
+ $col_idx,
+ );
+ }
+ # need to check the bind attrs - a bind will happen only once for
+ # the entire dataset, so any changes further down will be ignored.
+ elsif (! Data::Compare::Compare(
+ $value_type_idx->{$col_idx},
+ [
+ map
+ { $_->[0] }
+ @{$self->_resolve_bindattrs(
+ $source, [ @{$$val}[1 .. $#$$val] ], $colinfo_cache,
+ )}
+ ],
+ )) {
+ $bad_slice_report_cref->(
+ 'Differing bind attributes on literal/bind values not supported',
+ $row_idx,
+ $col_idx,
+ );
+ }
}
}
}
}
- my ($sql, $bind) = $self->_prep_for_execute (
- 'insert', undef, $source, [\%colvalues]
- );
-
- if (! @$bind) {
- # if the bindlist is empty - make sure all "values" are in fact
- # literal scalarrefs. If not the case this means the storage ate
- # them away (e.g. the NoBindVars component) and interpolated them
- # directly into the SQL. This obviosly can't be good for multi-inserts
-
- $self->throw_exception('Cannot insert_bulk without support for placeholders')
- if first { ref $_ ne 'SCALAR' } values %colvalues;
- }
-
- # neither _execute_array, nor _execute_inserts_with_no_binds are
- # atomic (even if _execute _array is a single call). Thus a safety
+ # neither _dbh_execute_for_fetch, nor _dbh_execute_inserts_with_no_binds
+ # are atomic (even if execute_for_fetch is a single call). Thus a safety
# scope guard
my $guard = $self->txn_scope_guard;
- $self->_query_start( $sql, @$bind ? [ dummy => '__BULK_INSERT__' ] : () );
- my $sth = $self->sth($sql);
+ $self->_query_start( $sql, @$proto_bind ? [[undef => '__BULK_INSERT__' ]] : () );
+ my $sth = $self->_sth($sql);
my $rv = do {
- if (@$bind) {
- #@bind = map { ref $_ ? ''.$_ : $_ } @bind; # stringify args
- $self->_execute_array( $source, $sth, $bind, $cols, $data );
+ if (@$proto_bind) {
+ # proto bind contains the information on which pieces of $data to pull
+ # $cols is passed in only for prettier error-reporting
+ $self->_dbh_execute_for_fetch( $source, $sth, $proto_bind, $cols, $data );
}
else {
# bind_param_array doesn't work if there are no binds
}
};
- $self->_query_end( $sql, @$bind ? [ dummy => '__BULK_INSERT__' ] : () );
+ $self->_query_end( $sql, @$proto_bind ? [[ undef => '__BULK_INSERT__' ]] : () );
$guard->commit;
- return (wantarray ? ($rv, $sth, @$bind) : $rv);
+ return (wantarray ? ($rv, $sth, @$proto_bind) : $rv);
}
-sub _execute_array {
- my ($self, $source, $sth, $bind, $cols, $data, @extra) = @_;
-
- ## This must be an arrayref, else nothing works!
- my $tuple_status = [];
+# execute_for_fetch is capable of returning data just fine (it means it
+# can be used for INSERT...RETURNING and UPDATE...RETURNING. Since this
+# is the void-populate fast-path we will just ignore this altogether
+# for the time being.
+sub _dbh_execute_for_fetch {
+ my ($self, $source, $sth, $proto_bind, $cols, $data) = @_;
- ## Get the bind_attributes, if any exist
- my $bind_attributes = $self->source_bind_attributes($source);
+ my @idx_range = ( 0 .. $#$proto_bind );
- ## Bind the values and execute
- my $placeholder_index = 1;
+ # If we have any bind attributes to take care of, we will bind the
+ # proto-bind data (which will never be used by execute_for_fetch)
+ # However since column bindtypes are "sticky", this is sufficient
+ # to get the DBD to apply the bindtype to all values later on
- foreach my $bound (@$bind) {
+ my $bind_attrs = $self->_dbi_attrs_for_bind($source, $proto_bind);
- my $attributes = {};
- my ($column_name, $data_index) = @$bound;
+ for my $i (@idx_range) {
+ $sth->bind_param (
+ $i+1, # DBI bind indexes are 1-based
+ $proto_bind->[$i][1],
+ $bind_attrs->[$i],
+ ) if defined $bind_attrs->[$i];
+ }
- if( $bind_attributes ) {
- $attributes = $bind_attributes->{$column_name}
- if defined $bind_attributes->{$column_name};
- }
+ # At this point $data slots named in the _bind_data_slice_idx of
+ # each piece of $proto_bind are either \[]s or plain values to be
+ # passed in. Construct the dispensing coderef. *NOTE* the order
+ # of $data will differ from this of the ?s in the SQL (due to
+ # alphabetical ordering by colname). We actually do want to
+ # preserve this behavior so that prepare_cached has a better
+ # chance of matching on unrelated calls
+ my %data_reorder = map { $proto_bind->[$_][0]{_bind_data_slice_idx} => $_ } @idx_range;
- my @data = map { $_->[$data_index] } @$data;
+ my $fetch_row_idx = -1; # saner loop this way
+ my $fetch_tuple = sub {
+ return undef if ++$fetch_row_idx > $#$data;
- $sth->bind_param_array(
- $placeholder_index,
- [@data],
- (%$attributes ? $attributes : ()),
- );
- $placeholder_index++;
- }
+ return [ map
+ { (ref $_ eq 'REF' and ref $$_ eq 'ARRAY')
+ ? map { $_->[-1] } @{$$_}[1 .. $#$$_]
+ : $_
+ }
+ map
+ { $data->[$fetch_row_idx][$_]}
+ sort
+ { $data_reorder{$a} <=> $data_reorder{$b} }
+ keys %data_reorder
+ ];
+ };
+ my $tuple_status = [];
my ($rv, $err);
try {
- $rv = $self->_dbh_execute_array($sth, $tuple_status, @extra);
+ $rv = $sth->execute_for_fetch(
+ $fetch_tuple,
+ $tuple_status,
+ );
}
catch {
$err = shift;
$self->throw_exception("Unexpected populate error: $err")
if ($i > $#$tuple_status);
- $self->throw_exception(sprintf "%s for populate slice:\n%s",
+ require Data::Dumper::Concise;
+ $self->throw_exception(sprintf "execute_for_fetch() aborted with '%s' at populate slice:\n%s",
($tuple_status->[$i][1] || $err),
- Dumper { map { $cols->[$_] => $data->[$i][$_] } (0 .. $#$cols) },
+ Data::Dumper::Concise::Dumper( { map { $cols->[$_] => $data->[$i][$_] } (0 .. $#$cols) } ),
);
}
return $rv;
}
-sub _dbh_execute_array {
- my ($self, $sth, $tuple_status, @extra) = @_;
-
- return $sth->execute_array({ArrayTupleStatus => $tuple_status});
-}
-
sub _dbh_execute_inserts_with_no_binds {
my ($self, $sth, $count) = @_;
}
sub update {
- my ($self, $source, @args) = @_;
-
- my $bind_attrs = $self->source_bind_attributes($source);
-
- return $self->_execute('update' => [], $source, $bind_attrs, @args);
+ #my ($self, $source, @args) = @_;
+ shift->_execute('update', @_);
}
sub delete {
- my ($self, $source, @args) = @_;
-
- my $bind_attrs = $self->source_bind_attributes($source);
-
- return $self->_execute('delete' => [], $source, $bind_attrs, @args);
-}
-
-# We were sent here because the $rs contains a complex search
-# which will require a subquery to select the correct rows
-# (i.e. joined or limited resultsets, or non-introspectable conditions)
-#
-# Generating a single PK column subquery is trivial and supported
-# by all RDBMS. However if we have a multicolumn PK, things get ugly.
-# Look at _multipk_update_delete()
-sub _subq_update_delete {
- my $self = shift;
- my ($rs, $op, $values) = @_;
-
- my $rsrc = $rs->result_source;
-
- # quick check if we got a sane rs on our hands
- my @pcols = $rsrc->_pri_cols;
-
- my $sel = $rs->_resolved_attrs->{select};
- $sel = [ $sel ] unless ref $sel eq 'ARRAY';
-
- if (
- join ("\x00", map { join '.', $rs->{attrs}{alias}, $_ } sort @pcols)
- ne
- join ("\x00", sort @$sel )
- ) {
- $self->throw_exception (
- '_subq_update_delete can not be called on resultsets selecting columns other than the primary keys'
- );
- }
-
- if (@pcols == 1) {
- return $self->$op (
- $rsrc,
- $op eq 'update' ? $values : (),
- { $pcols[0] => { -in => $rs->as_query } },
- );
- }
-
- else {
- return $self->_multipk_update_delete (@_);
- }
-}
-
-# ANSI SQL does not provide a reliable way to perform a multicol-PK
-# resultset update/delete involving subqueries. So by default resort
-# to simple (and inefficient) delete_all style per-row opearations,
-# while allowing specific storages to override this with a faster
-# implementation.
-#
-sub _multipk_update_delete {
- return shift->_per_row_update_delete (@_);
-}
-
-# This is the default loop used to delete/update rows for multi PK
-# resultsets, and used by mysql exclusively (because it can't do anything
-# else).
-#
-# We do not use $row->$op style queries, because resultset update/delete
-# is not expected to cascade (this is what delete_all/update_all is for).
-#
-# There should be no race conditions as the entire operation is rolled
-# in a transaction.
-#
-sub _per_row_update_delete {
- my $self = shift;
- my ($rs, $op, $values) = @_;
-
- my $rsrc = $rs->result_source;
- my @pcols = $rsrc->_pri_cols;
-
- my $guard = $self->txn_scope_guard;
-
- # emulate the return value of $sth->execute for non-selects
- my $row_cnt = '0E0';
-
- my $subrs_cur = $rs->cursor;
- my @all_pk = $subrs_cur->all;
- for my $pks ( @all_pk) {
-
- my $cond;
- for my $i (0.. $#pcols) {
- $cond->{$pcols[$i]} = $pks->[$i];
- }
-
- $self->$op (
- $rsrc,
- $op eq 'update' ? $values : (),
- $cond,
- );
-
- $row_cnt++;
- }
-
- $guard->commit;
-
- return $row_cnt;
+ #my ($self, $source, @args) = @_;
+ shift->_execute('delete', @_);
}
sub _select {
sub _select_args_to_query {
my $self = shift;
- # my ($op, $bind, $ident, $bind_attrs, $select, $cond, $rs_attrs, $rows, $offset)
+ # my ($op, $ident, $select, $cond, $rs_attrs, $rows, $offset)
# = $self->_select_args($ident, $select, $cond, $attrs);
- my ($op, $bind, $ident, $bind_attrs, @args) =
+ my ($op, $ident, @args) =
$self->_select_args(@_);
- # my ($sql, $prepared_bind) = $self->_prep_for_execute($op, $bind, $ident, [ $select, $cond, $rs_attrs, $rows, $offset ]);
- my ($sql, $prepared_bind) = $self->_prep_for_execute($op, $bind, $ident, \@args);
+ # my ($sql, $prepared_bind) = $self->_gen_sql_bind($op, $ident, [ $select, $cond, $rs_attrs, $rows, $offset ]);
+ my ($sql, $prepared_bind) = $self->_gen_sql_bind($op, $ident, \@args);
$prepared_bind ||= [];
return wantarray
- ? ($sql, $prepared_bind, $bind_attrs)
+ ? ($sql, $prepared_bind)
: \[ "($sql)", @$prepared_bind ]
;
}
,
};
- # calculate bind_attrs before possible $ident mangling
- my $bind_attrs = {};
- for my $alias (keys %$alias2source) {
- my $bindtypes = $self->source_bind_attributes ($alias2source->{$alias}) || {};
- for my $col (keys %$bindtypes) {
-
- my $fqcn = join ('.', $alias, $col);
- $bind_attrs->{$fqcn} = $bindtypes->{$col} if $bindtypes->{$col};
-
- # Unqialified column names are nice, but at the same time can be
- # rather ambiguous. What we do here is basically go along with
- # the loop, adding an unqualified column slot to $bind_attrs,
- # alongside the fully qualified name. As soon as we encounter
- # another column by that name (which would imply another table)
- # we unset the unqualified slot and never add any info to it
- # to avoid erroneous type binding. If this happens the users
- # only choice will be to fully qualify his column name
-
- if (exists $bind_attrs->{$col}) {
- $bind_attrs->{$col} = {};
- }
- else {
- $bind_attrs->{$col} = $bind_attrs->{$fqcn};
- }
- }
- }
-
# Sanity check the attributes (SQLMaker does it too, but
# in case of a software_limit we'll never reach there)
if (defined $attrs->{offset}) {
$self->throw_exception('A supplied offset attribute must be a non-negative integer')
if ( $attrs->{offset} =~ /\D/ or $attrs->{offset} < 0 );
}
- $attrs->{offset} ||= 0;
if (defined $attrs->{rows}) {
$self->throw_exception("The rows attribute must be a positive integer if present")
= $self->_adjust_select_args_for_complex_prefetch ($ident, $select, $where, $attrs);
}
elsif (! $attrs->{software_limit} ) {
- push @limit, $attrs->{rows}, $attrs->{offset};
+ push @limit, (
+ $attrs->{rows} || (),
+ $attrs->{offset} || (),
+ );
}
# try to simplify the joinmap further (prune unreferenced type-single joins)
# invoked, and that's just bad...
###
- return ('select', $attrs->{bind}, $ident, $bind_attrs, $select, $where, $attrs, @limit);
+ return ('select', $ident, $select, $where, $attrs, @limit);
}
# Returns a counting SELECT for a simple count
return { count => '*' };
}
-
sub source_bind_attributes {
- my ($self, $source) = @_;
-
- my $bind_attributes;
-
- my $colinfo = $source->columns_info;
-
- for my $col (keys %$colinfo) {
- if (my $dt = $colinfo->{$col}{data_type} ) {
- $bind_attributes->{$col} = $self->bind_attribute_by_data_type($dt)
- }
- }
-
- return $bind_attributes;
+ shift->throw_exception(
+ 'source_bind_attributes() was never meant to be a callable public method - '
+ .'please contact the DBIC dev-team and describe your use case so that a reasonable '
+ .'solution can be provided'
+ ."\nhttp://search.cpan.org/dist/DBIx-Class/lib/DBIx/Class.pm#GETTING_HELP/SUPPORT"
+ );
}
=head2 select
=head2 sql_limit_dialect
This is an accessor for the default SQL limit dialect used by a particular
-storage driver. Can be overriden by supplying an explicit L</limit_dialect>
+storage driver. Can be overridden by supplying an explicit L</limit_dialect>
to L<DBIx::Class::Schema/connect>. For a list of available limit dialects
see L<DBIx::Class::SQLMaker::LimitDialects>.
-=head2 sth
-
-=over 4
-
-=item Arguments: $sql
-
-=back
-
-Returns a L<DBI> sth (statement handle) for the supplied SQL.
-
=cut
sub _dbh_sth {
}
sub sth {
+ carp_unique 'sth was mistakenly marked/documented as public, stop calling it (will be removed before DBIC v0.09)';
+ shift->_sth(@_);
+}
+
+sub _sth {
my ($self, $sql) = @_;
$self->dbh_do('_dbh_sth', $sql); # retry over disconnects
}
=cut
sub is_datatype_numeric {
- my ($self, $dt) = @_;
+ #my ($self, $dt) = @_;
- return 0 unless $dt;
+ return 0 unless $_[1];
- return $dt =~ /^ (?:
+ $_[1] =~ /^ (?:
numeric | int(?:eger)? | (?:tiny|small|medium|big)int | dec(?:imal)? | real | float | double (?: \s+ precision)? | (?:big)?serial
) $/ix;
}
} else {
-d $dir
or
- make_path ("$dir") # make_path does not like objects (i.e. Path::Class::Dir)
+ (require File::Path and File::Path::make_path ("$dir")) # make_path does not like objects (i.e. Path::Class::Dir)
or
$self->throw_exception(
- "Failed to create '$dir': " . ($! || $@ || 'error unknow')
+ "Failed to create '$dir': " . ($! || $@ || 'error unknown')
);
}
my $filename = $schema->ddl_filename($type, $version, $dir);
if(-f $filename)
{
+ # FIXME replace this block when a proper sane sql parser is available
my $file;
open($file, "<$filename")
or $self->throw_exception("Can't open $filename ($!)");
return wantarray ? @ret : $ret[0];
}
+# FIXME deploy() currently does not accurately report sql errors
+# Will always return true while errors are warned
sub deploy {
my ($self, $schema, $type, $sqltargs, $dir) = @_;
my $deploy = sub {
my $line = shift;
- return if($line =~ /^--/);
return if(!$line);
+ return if($line =~ /^--/);
# next if($line =~ /^DROP/m);
return if($line =~ /^BEGIN TRANSACTION/m);
return if($line =~ /^COMMIT/m);
}
}
elsif (@statements == 1) {
- foreach my $line ( split(";\n", $statements[0])) {
+ # split on single line comments and end of statements
+ foreach my $line ( split(/\s*--.*\n|;\n/, $statements[0])) {
$deploy->( $line );
}
}
=head2 datetime_parser_type
-Defines (returns) the datetime parser class - currently hardwired to
-L<DateTime::Format::MySQL>
-
-=cut
-
-sub datetime_parser_type { "DateTime::Format::MySQL"; }
+Defines the datetime parser class - currently defaults to L<DateTime::Format::MySQL>
=head2 build_datetime_parser
sub build_datetime_parser {
my $self = shift;
my $type = $self->datetime_parser_type(@_);
- $self->ensure_class_loaded ($type);
return $type;
}
# version and it may be necessary to amend or override it for a specific storage
# if such binds are necessary.
sub _max_column_bytesize {
- my ($self, $source, $col) = @_;
+ my ($self, $attr) = @_;
- my $inf = $source->column_info($col);
- return $inf->{_max_bytesize} ||= do {
+ my $max_size;
- my $max_size;
+ if ($attr->{sqlt_datatype}) {
+ my $data_type = lc($attr->{sqlt_datatype});
- if (my $data_type = $inf->{data_type}) {
- $data_type = lc($data_type);
+ if ($attr->{sqlt_size}) {
# String/sized-binary types
- if ($data_type =~ /^(?:l?(?:var)?char(?:acter)?(?:\s*varying)?
- |(?:var)?binary(?:\s*varying)?|raw)\b/x
+ if ($data_type =~ /^(?:
+ l? (?:var)? char(?:acter)? (?:\s*varying)?
+ |
+ (?:var)? binary (?:\s*varying)?
+ |
+ raw
+ )\b/x
) {
- $max_size = $inf->{size};
+ $max_size = $attr->{sqlt_size};
}
# Other charset/unicode types, assume scale of 4
- elsif ($data_type =~ /^(?:national\s*character(?:\s*varying)?|nchar
- |univarchar
- |nvarchar)\b/x
+ elsif ($data_type =~ /^(?:
+ national \s* character (?:\s*varying)?
+ |
+ nchar
+ |
+ univarchar
+ |
+ nvarchar
+ )\b/x
) {
- $max_size = $inf->{size} * 4 if $inf->{size};
- }
- # Blob types
- elsif ($self->_is_lob_type($data_type)) {
- # default to longreadlen
- }
- else {
- $max_size = 100; # for all other (numeric?) datatypes
+ $max_size = $attr->{sqlt_size} * 4;
}
}
- $max_size ||= $self->_get_dbh->{LongReadLen} || 8000;
- };
+ if (!$max_size and !$self->_is_lob_type($data_type)) {
+ $max_size = 100 # for all other (numeric?) datatypes
+ }
+ }
+
+ $max_size || $self->_dbic_connect_attributes->{LongReadLen} || $self->_get_dbh->{LongReadLen} || 8000;
}
# Determine if a data_type is some type of BLOB
-# FIXME: these regexes are expensive, result of these checks should be cached in
-# the column_info .
sub _is_lob_type {
my ($self, $data_type) = @_;
$data_type && ($data_type =~ /lob|bfile|text|image|bytea|memo/i
DBIx::Class can do some wonderful magic with handling exceptions,
disconnections, and transactions when you use C<< AutoCommit => 1 >>
-(the default) combined with C<txn_do> for transaction support.
+(the default) combined with L<txn_do|DBIx::Class::Storage/txn_do> for
+transaction support.
If you set C<< AutoCommit => 0 >> in your connect info, then you are always
in an assumed transaction between commits, and you're telling us you'd