package DBIx::Class::Storage::DBI; # -*- mode: cperl; cperl-indent-level: 2 -*- use strict; use warnings; use base qw/DBIx::Class::Storage::DBIHacks DBIx::Class::Storage/; use mro 'c3'; use DBIx::Class::Carp; use Scalar::Util qw/refaddr weaken reftype blessed/; use Context::Preserve 'preserve_context'; use Try::Tiny; use SQL::Abstract::Util qw(is_plain_value is_literal_value); use DBIx::Class::_Util qw(quote_sub perlstring serialize detected_reinvoked_destructor sigwarn_silencer); 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_limit_dialect sql_quote_char 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 _dbic_connect_attributes _driver_determined _dbh _dbh_details _conn_pid _sql_maker _sql_maker_opts _dbh_autocommit _perform_autoinc_retrieval _autoinc_supplied_for_op /); # the values for these accessors are picked out (and deleted) from # the attribute hashref passed to connect_info my @storage_options = qw/ on_connect_call on_disconnect_call on_connect_do on_disconnect_do disable_sth_caching unsafe auto_savepoint /; __PACKAGE__->mk_group_accessors('simple' => @storage_options); # capability definitions, using a 2-tiered accessor system # The rationale is: # # A driver/user may define _use_X, which blindly without any checks says: # "(do not) use this capability", (use_dbms_capability is an "inherited" # type accessor) # # If _use_X is undef, _supports_X is then queried. This is a "simple" style # accessor, which in turn calls _determine_supports_X, and stores the return # in a special slot on the storage object, which is wiped every time a $dbh # reconnection takes place (it is not guaranteed that upon reconnection we # will get the same rdbms version). _determine_supports_X does not need to # exist on a driver, as we ->can for it before calling. my @capabilities = (qw/ insert_returning insert_returning_bound multicolumn_in placeholders typeless_placeholders join_optimizer /); __PACKAGE__->mk_group_accessors( dbms_capability => map { "_supports_$_" } @capabilities ); __PACKAGE__->mk_group_accessors( use_dbms_capability => map { "_use_$_" } (@capabilities ) ); # on by default, not strictly a capability (pending rewrite) __PACKAGE__->_use_join_optimizer (1); sub _determine_supports_join_optimizer { 1 }; # Each of these methods need _determine_driver called before itself # in order to function reliably. We also need to separate accessors # from plain old method calls, since an accessor called as a setter # does *not* need the driver determination loop fired (and in fact # can produce hard to find bugs, like e.g. losing on_connect_* # semantics on fresh connections) # # The construct below is simply a parameterized around() my $storage_accessor_idx = { map { $_ => 1 } qw( sqlt_type datetime_parser_type sql_maker cursor_class )}; for my $meth (keys %$storage_accessor_idx, qw( deployment_statements build_datetime_parser txn_begin insert update delete select select_single _insert_bulk with_deferred_fk_checks get_use_dbms_capability get_dbms_capability _server_info _get_server_version )) { my $orig = __PACKAGE__->can ($meth) or die "$meth is not a ::Storage::DBI method!"; my $is_getter = $storage_accessor_idx->{$meth} ? 0 : 1; quote_sub __PACKAGE__ ."::$meth", sprintf( <<'EOC', $is_getter, perlstring $meth ), { '$orig' => \$orig }; 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 ! $_[0]->{_in_determine_driver} and # if this is a known *setter* - just set it, no need to connect # and determine the driver ( %1$s or @_ <= 1 ) and # Only try to determine stuff if we have *something* that either is or can # provide a DSN. Allows for bare $schema's generated with a plain ->connect() # to still be marginally useful $_[0]->_dbi_connect_info->[0] ) { $_[0]->_determine_driver; # work around http://rt.perl.org/rt3/Public/Bug/Display.html?id=35878 goto $_[0]->can(%2$s) unless DBIx::Class::_ENV_::BROKEN_GOTO; my $cref = $_[0]->can(%2$s); goto $cref; } goto $orig; EOC } =head1 NAME DBIx::Class::Storage::DBI - DBI storage handler =head1 SYNOPSIS my $schema = MySchema->connect('dbi:SQLite:my.db'); $schema->storage->debug(1); my @stuff = $schema->storage->dbh_do( sub { my ($storage, $dbh, @args) = @_; $dbh->do("DROP TABLE authors"); }, @column_list ); $schema->resultset('Book')->search({ written_on => $schema->storage->datetime_parser->format_datetime(DateTime->now) }); =head1 DESCRIPTION This class represents the connection to an RDBMS via L. See L for general information. This pod only documents DBI-specific methods and behaviors. =head1 METHODS =cut sub new { my $new = shift->next::method(@_); $new->_sql_maker_opts({}); $new->_dbh_details({}); $new->{_in_do_block} = 0; # read below to see what this does $new->_arm_global_destructor; $new; } # This is hack to work around perl shooting stuff in random # order on exit(). If we do not walk the remaining storage # objects in an END block, there is a *small but real* chance # of a fork()ed child to kill the parent's shared DBI handle, # *before perl reaches the DESTROY in this package* # Yes, it is ugly and effective. # Additionally this registry is used by the CLONE method to # make sure no handles are shared between threads { my %seek_and_destroy; sub _arm_global_destructor { # quick "garbage collection" pass - prevents the registry # from slowly growing with a bunch of undef-valued keys defined $seek_and_destroy{$_} or delete $seek_and_destroy{$_} for keys %seek_and_destroy; weaken ( $seek_and_destroy{ refaddr($_[0]) } = $_[0] ); } END { local $?; # just in case the DBI destructor changes it somehow # destroy just the object if not native to this process $_->_verify_pid for (grep { defined $_ } values %seek_and_destroy ); } sub CLONE { # As per DBI's recommendation, DBIC disconnects all handles as # soon as possible (DBIC will reconnect only on demand from within # the thread) my @instances = grep { defined $_ } values %seek_and_destroy; %seek_and_destroy = (); for (@instances) { $_->_dbh(undef); $_->transaction_depth(0); $_->savepoints([]); # properly renumber existing refs $_->_arm_global_destructor } } } sub DESTROY { return if &detected_reinvoked_destructor; $_[0]->_verify_pid unless DBIx::Class::_ENV_::BROKEN_FORK; # some databases spew warnings on implicit disconnect local $SIG{__WARN__} = sub {}; $_[0]->_dbh(undef); # this op is necessary, since the very last perl runtime statement # triggers a global destruction shootout, and the $SIG localization # may very well be destroyed before perl actually gets to do the # $dbh undef 1; } # handle pid changes correctly - do not destroy parent's connection sub _verify_pid { my $pid = $_[0]->_conn_pid; if( defined $pid and $pid != $$ and my $dbh = $_[0]->_dbh ) { $dbh->{InactiveDestroy} = 1; $_[0]->_dbh(undef); $_[0]->transaction_depth(0); $_[0]->savepoints([]); } return; } =head2 connect_info This method is normally called by L, which encapsulates its argument list in an arrayref before passing them here. The argument list may contain: =over =item * The same 4-element argument set one would normally pass to L, optionally followed by L recognized by DBIx::Class: $connect_info_args = [ $dsn, $user, $password, \%dbi_attributes?, \%extra_attributes? ]; =item * A single code reference which returns a connected L optionally followed by L recognized by DBIx::Class: $connect_info_args = [ sub { DBI->connect (...) }, \%extra_attributes? ]; =item * A single hashref with all the attributes and the dsn/user/password mixed together: $connect_info_args = [{ dsn => $dsn, user => $user, password => $pass, %dbi_attributes, %extra_attributes, }]; $connect_info_args = [{ dbh_maker => sub { DBI->connect (...) }, %dbi_attributes, %extra_attributes, }]; This is particularly useful for L based applications, allowing the following config (L style): schema_class App::DB dsn dbi:mysql:database=test user testuser password TestPass AutoCommit 1 The C/C/C combination can be substituted by the C key whose value is a coderef that returns a connected L =back Please note that the L docs recommend that you always explicitly set C to either I<0> or I<1>. L further recommends that it be set to I<1>, and that you perform transactions via our L method. L will set it to I<1> if you do not do explicitly set it to zero. This is the default for most DBDs. See L for details. =head3 DBIx::Class specific connection attributes In addition to the standard L L attributes, DBIx::Class recognizes the following connection options. These options can be mixed in with your other L connection attributes, or placed in a separate hashref (C<\%extra_attributes>) as shown above. Every time C is invoked, any previous settings for these options will be cleared before setting the new ones, regardless of whether any options are specified in the new C. =over =item on_connect_do Specifies things to do immediately after connecting or re-connecting to the database. Its value may contain: =over =item a scalar This contains one SQL statement to execute. =item an array reference This contains SQL statements to execute in order. Each element contains a string or a code reference that returns a string. =item a code reference This contains some code to execute. Unlike code references within an array reference, its return value is ignored. =back =item on_disconnect_do Takes arguments in the same form as L and executes them immediately before disconnecting from the database. Note, this only runs if you explicitly call L on the storage object. =item on_connect_call A more generalized form of L that calls the specified C methods in your storage driver. on_connect_do => 'select 1' is equivalent to: on_connect_call => [ [ do_sql => 'select 1' ] ] Its values may contain: =over =item a scalar Will call the C method. =item a code reference Will execute C<< $code->($storage) >> =item an array reference Each value can be a method name or code reference. =item an array of arrays For each array, the first item is taken to be the C method name or code reference, and the rest are parameters to it. =back Some predefined storage methods you may use: =over =item do_sql Executes a SQL string or a code reference that returns a SQL string. This is what L and L use. It can take: =over =item a scalar Will execute the scalar as SQL. =item an arrayref Taken to be arguments to L, the SQL string optionally followed by the attributes hashref and bind values. =item a code reference Will execute C<< $code->($storage) >> and execute the return array refs as above. =back =item datetime_setup Execute any statements necessary to initialize the database session to return and accept datetime/timestamp values used with L. Only necessary for some databases, see your specific storage driver for implementation details. =back =item on_disconnect_call Takes arguments in the same form as L and executes them immediately before disconnecting from the database. Calls the C methods as opposed to the C methods called by L. Note, this only runs if you explicitly call L on the storage object. =item disable_sth_caching If set to a true value, this option will disable the caching of statement handles via L. =item limit_dialect Sets a specific SQL::Abstract::Limit-style limit dialect, overriding the default L setting of the storage (if any). For a list of available limit dialects see L. =item quote_names When true automatically sets L and L to the characters appropriate for your particular RDBMS. This option is preferred over specifying L directly. =item quote_char Specifies what characters to use to quote table and column names. C expects either a single character, in which case is it is placed on either side of the table/column name, or an arrayref of length 2 in which case the table/column name is placed between the elements. For example under MySQL you should use C<< quote_char => '`' >>, and for SQL Server you should use C<< quote_char => [qw/[ ]/] >>. =item name_sep This parameter is only useful in conjunction with C, and is used to specify the character that separates elements (schemas, tables, columns) from each other. If unspecified it defaults to the most commonly used C<.>. =item unsafe This Storage driver normally installs its own C, sets C and C on, and sets C off on all database handles, including those supplied by a coderef. It does this so that it can have consistent and useful error behavior. If you set this option to a true value, Storage will not do its usual modifications to the database handle's attributes, and instead relies on the settings in your connect_info DBI options (or the values you set in your connection coderef, in the case that you are connecting via coderef). Note that your custom settings can cause Storage to malfunction, especially if you set a C handler that suppresses exceptions and/or disable C. =item auto_savepoint If this option is true, L will use savepoints when nesting transactions, making it possible to recover from failure in the inner transaction without having to abort all outer transactions. =item cursor_class Use this argument to supply a cursor class other than the default L. =back Some real-life examples of arguments to L and L # Simple SQLite connection ->connect_info([ 'dbi:SQLite:./foo.db' ]); # Connect via subref ->connect_info([ sub { DBI->connect(...) } ]); # Connect via subref in hashref ->connect_info([{ dbh_maker => sub { DBI->connect(...) }, on_connect_do => 'alter session ...', }]); # A bit more complicated ->connect_info( [ 'dbi:Pg:dbname=foo', 'postgres', 'my_pg_password', { AutoCommit => 1 }, { quote_char => q{"} }, ] ); # Equivalent to the previous example ->connect_info( [ 'dbi:Pg:dbname=foo', 'postgres', 'my_pg_password', { AutoCommit => 1, quote_char => q{"}, name_sep => q{.} }, ] ); # Same, but with hashref as argument # See parse_connect_info for explanation ->connect_info( [{ dsn => 'dbi:Pg:dbname=foo', user => 'postgres', password => 'my_pg_password', AutoCommit => 1, quote_char => q{"}, name_sep => q{.}, }] ); # Subref + DBIx::Class-specific connection options ->connect_info( [ sub { DBI->connect(...) }, { quote_char => q{`}, name_sep => q{@}, on_connect_do => ['SET search_path TO myschema,otherschema,public'], disable_sth_caching => 1, }, ] ); =cut sub connect_info { my ($self, $info) = @_; return $self->_connect_info if !$info; $self->_connect_info($info); # copy for _connect_info $info = $self->_normalize_connect_info($info) if ref $info eq 'ARRAY'; my %attrs = ( %{ $self->_default_dbi_connect_attributes || {} }, %{ $info->{attributes} || {} }, ); my @args = @{ $info->{arguments} }; if (keys %attrs and ref $args[0] ne 'CODE') { carp_unique ( 'You provided explicit AutoCommit => 0 in your connection_info. ' . 'This is almost universally a bad idea (see the footnotes of ' . 'DBIx::Class::Storage::DBI for more info). If you still want to ' . 'do this you can set $ENV{DBIC_UNSAFE_AUTOCOMMIT_OK} to disable ' . 'this warning.' ) if ! $attrs{AutoCommit} and ! $ENV{DBIC_UNSAFE_AUTOCOMMIT_OK}; push @args, \%attrs if keys %attrs; } # this is the authoritative "always an arrayref" thing fed to DBI->connect # OR a single-element coderef-based $dbh factory $self->_dbi_connect_info(\@args); # extract the individual storage options for my $storage_opt (keys %{ $info->{storage_options} }) { my $value = $info->{storage_options}{$storage_opt}; $self->$storage_opt($value); } # Extract the individual sqlmaker options # # Kill sql_maker/_sql_maker_opts, so we get a fresh one with only # the new set of options $self->_sql_maker(undef); $self->_sql_maker_opts({}); for my $sql_maker_opt (keys %{ $info->{sql_maker_options} }) { my $value = $info->{sql_maker_options}{$sql_maker_opt}; $self->_sql_maker_opts->{$sql_maker_opt} = $value; } # FIXME - dirty: # save attributes in a separate accessor so they are always # introspectable, even in case of a CODE $dbhmaker $self->_dbic_connect_attributes (\%attrs); return $self->_connect_info; } sub _dbi_connect_info { my $self = shift; return $self->{_dbi_connect_info} = $_[0] if @_; my $conninfo = $self->{_dbi_connect_info} || []; # last ditch effort to grab a DSN if ( ! defined $conninfo->[0] and $ENV{DBI_DSN} ) { my @new_conninfo = @$conninfo; $new_conninfo[0] = $ENV{DBI_DSN}; $conninfo = \@new_conninfo; } return $conninfo; } sub _normalize_connect_info { my ($self, $info_arg) = @_; my %info; my @args = @$info_arg; # take a shallow copy for further mutilation # combine/pre-parse arguments depending on invocation style my %attrs; if (ref $args[0] eq 'CODE') { # coderef with optional \%extra_attributes %attrs = %{ $args[1] || {} }; @args = $args[0]; } elsif (ref $args[0] eq 'HASH') { # single hashref (i.e. Catalyst config) %attrs = %{$args[0]}; @args = (); if (my $code = delete $attrs{dbh_maker}) { @args = $code; my @ignored = grep { delete $attrs{$_} } (qw/dsn user password/); if (@ignored) { carp sprintf ( 'Attribute(s) %s in connect_info were ignored, as they can not be applied ' . "to the result of 'dbh_maker'", join (', ', map { "'$_'" } (@ignored) ), ); } } else { @args = delete @attrs{qw/dsn user password/}; } } else { # otherwise assume dsn/user/password + \%attrs + \%extra_attrs %attrs = ( % { $args[3] || {} }, % { $args[4] || {} }, ); @args = @args[0,1,2]; } $info{arguments} = \@args; my @storage_opts = grep exists $attrs{$_}, @storage_options, 'cursor_class'; @{ $info{storage_options} }{@storage_opts} = delete @attrs{@storage_opts} if @storage_opts; my @sql_maker_opts = grep exists $attrs{$_}, qw/limit_dialect quote_char name_sep quote_names/; @{ $info{sql_maker_options} }{@sql_maker_opts} = delete @attrs{@sql_maker_opts} if @sql_maker_opts; $info{attributes} = \%attrs if %attrs; return \%info; } sub _default_dbi_connect_attributes () { +{ AutoCommit => 1, PrintError => 0, RaiseError => 1, ShowErrorStatement => 1, }; } =head2 on_connect_do This method is deprecated in favour of setting via L. =cut =head2 on_disconnect_do This method is deprecated in favour of setting via L. =cut sub _parse_connect_do { my ($self, $type) = @_; my $val = $self->$type; return () if not defined $val; my @res; if (not ref($val)) { push @res, [ 'do_sql', $val ]; } elsif (ref($val) eq 'CODE') { push @res, $val; } elsif (ref($val) eq 'ARRAY') { push @res, map { [ 'do_sql', $_ ] } @$val; } else { $self->throw_exception("Invalid type for $type: ".ref($val)); } return \@res; } =head2 dbh_do Arguments: ($subref | $method_name), @extra_coderef_args? Execute the given $subref or $method_name using the new exception-based connection management. The first two arguments will be the storage object that C was called on and a database handle to use. Any additional arguments will be passed verbatim to the called subref as arguments 2 and onwards. Using this (instead of $self->_dbh or $self->dbh) ensures correct exception handling and reconnection (or failover in future subclasses). Your subref should have no side-effects outside of the database, as there is the potential for your subref to be partially double-executed if the database connection was stale/dysfunctional. Example: my @stuff = $schema->storage->dbh_do( sub { my ($storage, $dbh, @cols) = @_; my $cols = join(q{, }, @cols); $dbh->selectrow_array("SELECT $cols FROM foo"); }, @column_list ); =cut sub dbh_do { my $self = shift; my $run_target = shift; # either a coderef or a method name # short circuit when we know there is no need for a runner # # FIXME - assumption 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 @_ aliasing # semantics within the coderef, but only if needed # (pseudoforking doesn't like this trick much) my $args = @_ ? \@_ : []; DBIx::Class::Storage::BlockRunner->new( storage => $self, wrap_txn => 0, retry_handler => sub { $_[0]->failed_attempt_count == 1 and ! $_[0]->storage->connected }, )->run(sub { $self->$run_target ($self->_get_dbh, @$args ) }); } sub txn_do { $_[0]->_get_dbh; # connects or reconnects on pid change, necessary to grab correct txn_depth shift->next::method(@_); } =head2 disconnect Our C method also performs a rollback first if the database is not in C mode. =cut sub disconnect { if( my $dbh = $_[0]->_dbh ) { $_[0]->_do_connection_actions(disconnect_call_ => $_) for ( ( $_[0]->on_disconnect_call || () ), $_[0]->_parse_connect_do ('on_disconnect_do') ); # stops the "implicit rollback on disconnect" warning $_[0]->_exec_txn_rollback unless $_[0]->_dbh_autocommit; %{ $dbh->{CachedKids} } = (); $dbh->disconnect; $_[0]->_dbh(undef); } } =head2 with_deferred_fk_checks =over 4 =item Arguments: C<$coderef> =item Return Value: The return value of $coderef =back Storage specific method to run the code ref with FK checks deferred or in MySQL's case disabled entirely. =cut # Storage subclasses should override this sub with_deferred_fk_checks { #my ($self, $sub) = @_; $_[1]->(); } =head2 connected =over =item Arguments: none =item Return Value: 1|0 =back Verifies that the current database handle is active and ready to execute an SQL statement (e.g. the connection did not get stale, server is still answering, etc.) This method is used internally by L. =cut sub connected { return 0 unless $_[0]->_seems_connected; #be on the safe side local $_[0]->_dbh->{RaiseError} = 1; return $_[0]->_ping; } sub _seems_connected { $_[0]->_verify_pid unless DBIx::Class::_ENV_::BROKEN_FORK; ($_[0]->_dbh || return 0)->FETCH('Active'); } sub _ping { ($_[0]->_dbh || return 0)->ping; } sub ensure_connected { $_[0]->connected || ( $_[0]->_populate_dbh && 1 ); } =head2 dbh Returns a C<$dbh> - a data base handle of class L. The returned handle is guaranteed to be healthy by implicitly calling L, and if necessary performing a reconnection before returning. Keep in mind that this is very B on some database engines. Consider using L instead. =cut sub dbh { # maybe save a ping call $_[0]->_dbh ? ( $_[0]->ensure_connected and $_[0]->_dbh ) : $_[0]->_populate_dbh ; } # this is the internal "get dbh or connect (don't check)" method sub _get_dbh { $_[0]->_verify_pid unless DBIx::Class::_ENV_::BROKEN_FORK; $_[0]->_dbh || $_[0]->_populate_dbh; } # *DELIBERATELY* not a setter (for the time being) # Too intertwined with everything else for any kind of sanity sub sql_maker { my $self = shift; $self->throw_exception('sql_maker() is not a setter method') if @_; unless ($self->_sql_maker) { my $sql_maker_class = $self->sql_maker_class; my %opts = %{$self->_sql_maker_opts||{}}; my $dialect = $opts{limit_dialect} || $self->sql_limit_dialect || do { my $s_class = (ref $self) || $self; carp_unique ( "Your storage class ($s_class) does not set sql_limit_dialect and you " . 'have not supplied an explicit limit_dialect in your connection_info. ' . 'DBIC will attempt to use the GenericSubQ dialect, which works on most ' . 'databases but can be (and often is) painfully slow. ' . "Please file an RT ticket against '$s_class'" ) if $self->_dbi_connect_info->[0]; 'GenericSubQ'; } ; my ($quote_char, $name_sep); if ($opts{quote_names}) { $quote_char = (delete $opts{quote_char}) || $self->sql_quote_char || do { my $s_class = (ref $self) || $self; carp_unique ( "You requested 'quote_names' but your storage class ($s_class) does " . 'not explicitly define a default sql_quote_char and you have not ' . 'supplied a quote_char as part of your connection_info. DBIC will ' .q{default to the ANSI SQL standard quote '"', which works most of } . "the time. Please file an RT ticket against '$s_class'." ); '"'; # RV }; $name_sep = (delete $opts{name_sep}) || $self->sql_name_sep; } $self->_sql_maker($sql_maker_class->new( bindtype=>'columns', array_datatypes => 1, limit_dialect => $dialect, ($quote_char ? (quote_char => $quote_char) : ()), name_sep => ($name_sep || '.'), %opts, )); } return $self->_sql_maker; } # nothing to do by default sub _rebless {} sub _init {} sub _populate_dbh { $_[0]->_dbh(undef); # in case ->connected failed we might get sent here $_[0]->_dbh_details({}); # reset everything we know # FIXME - this needs reenabling with the proper "no reset on same DSN" check #$_[0]->_sql_maker(undef); # this may also end up being different $_[0]->_dbh($_[0]->_connect); $_[0]->_conn_pid($$) unless DBIx::Class::_ENV_::BROKEN_FORK; # on win32 these are in fact threads $_[0]->_determine_driver; # Always set the transaction depth on connect, since # there is no transaction in progress by definition $_[0]->{transaction_depth} = $_[0]->_dbh_autocommit ? 0 : 1; $_[0]->_run_connection_actions unless $_[0]->{_in_determine_driver}; $_[0]->_dbh; } sub _run_connection_actions { # there are pathological cases in the CI where this can loop # did not investigae in depth, but in either case this makes # sense to guard like this return if $_[0]->{_running_connections_actions}; local $_[0]->{_running_connections_actions} = 1; $_[0]->_do_connection_actions(connect_call_ => $_) for ( ( $_[0]->on_connect_call || () ), $_[0]->_parse_connect_do ('on_connect_do'), ); my $sqlac_like; if( DBIx::Class::_ENV_::DEVREL and $ENV{DBICDEVREL_SWAPOUT_SQLAC_WITH} and ( $sqlac_like ) = $ENV{DBICDEVREL_SWAPOUT_SQLAC_WITH} =~ /(.+)/ and # delay calling ->sql_maker as long as we can # ensure_class_loaded returns undef or throws ( Class::C3::Componentised->ensure_class_loaded( $sqlac_like ), 1 ) and ( ref $_[0]->sql_maker ) !~ /__REBASED__/ ) { require DBIx::Class::SQLMaker::ClassicExtensions; require SQL::Abstract::Classic; Class::C3::Componentised->inject_base( 'DBICDevRel::SQLAC::SwapOut', 'DBIx::Class::SQLMaker::ClassicExtensions', $sqlac_like, 'SQL::Abstract::Classic', ); $_[0]->_do_connection_actions(connect_call_ => [[ rebase_sqlmaker => 'DBICDevRel::SQLAC::SwapOut' ]]); } } sub set_use_dbms_capability { $_[0]->set_inherited ($_[1], $_[2]); } sub get_use_dbms_capability { my ($self, $capname) = @_; my $use = $self->get_inherited ($capname); return defined $use ? $use : do { $capname =~ s/^_use_/_supports_/; $self->get_dbms_capability ($capname) } ; } sub set_dbms_capability { $_[0]->_dbh_details->{capability}{$_[1]} = $_[2]; } sub get_dbms_capability { my ($self, $capname) = @_; my $cap = $self->_dbh_details->{capability}{$capname}; unless (defined $cap) { if (my $meth = $self->can ("_determine$capname")) { $cap = $self->$meth ? 1 : 0; } else { $cap = 0; } $self->set_dbms_capability ($capname, $cap); } return $cap; } sub _server_info { my $self = shift; my $info; unless ($info = $self->_dbh_details->{info}) { $info = {}; # this guarantees that problematic conninfo won't be hidden # by the try{} below $self->ensure_connected; my $server_version = try { $self->_get_server_version } catch { # driver determination *may* use this codepath # in which case we must rethrow $self->throw_exception($_) if $self->{_in_determine_driver}; # $server_version on failure undef; }; if (defined $server_version) { $info->{dbms_version} = $server_version; my ($numeric_version) = $server_version =~ /^([\d\.]+)/; my @verparts = split (/\./, $numeric_version); if ( @verparts && $verparts[0] <= 999 ) { # consider only up to 3 version parts, iff not more than 3 digits my @use_parts; while (@verparts && @use_parts < 3) { my $p = shift @verparts; last if $p > 999; push @use_parts, $p; } push @use_parts, 0 while @use_parts < 3; $info->{normalized_dbms_version} = sprintf "%d.%03d%03d", @use_parts; } } $self->_dbh_details->{info} = $info; } return $info; } sub _get_server_version { shift->_dbh_get_info('SQL_DBMS_VER'); } sub _dbh_get_info { my ($self, $info) = @_; if ($info =~ /[^0-9]/) { require DBI::Const::GetInfoType; $info = $DBI::Const::GetInfoType::GetInfoType{$info}; $self->throw_exception("Info type '$_[1]' not provided by DBI::Const::GetInfoType") unless defined $info; } $self->_get_dbh->get_info($info); } sub _describe_connection { require DBI::Const::GetInfoReturn; my $self = shift; my $drv; try { $drv = $self->_extract_driver_from_connect_info; $self->ensure_connected; }; $drv = "DBD::$drv" if $drv; my $res = do { local $SIG{__WARN__} = sigwarn_silencer(qr/Argument .+? isn't numeric in subroutine entry/); { DBIC_DSN => $self->_dbi_connect_info->[0], DBI_VER => DBI->VERSION, DBIC_VER => DBIx::Class->VERSION, DBIC_DRIVER => ref $self, $drv ? ( DBD => $drv, DBD_VER => try { $drv->VERSION }, ) : (), } }; # try to grab data even if we never managed to connect # will cover us in cases of an oddly broken half-connect for my $inf ( #keys %DBI::Const::GetInfoType::GetInfoType, qw/ SQL_CURSOR_COMMIT_BEHAVIOR SQL_CURSOR_ROLLBACK_BEHAVIOR SQL_CURSOR_SENSITIVITY SQL_DATA_SOURCE_NAME SQL_DBMS_NAME SQL_DBMS_VER SQL_DEFAULT_TXN_ISOLATION SQL_DM_VER SQL_DRIVER_NAME SQL_DRIVER_ODBC_VER SQL_DRIVER_VER SQL_EXPRESSIONS_IN_ORDERBY SQL_GROUP_BY SQL_IDENTIFIER_CASE SQL_IDENTIFIER_QUOTE_CHAR SQL_MAX_CATALOG_NAME_LEN SQL_MAX_COLUMN_NAME_LEN SQL_MAX_IDENTIFIER_LEN SQL_MAX_TABLE_NAME_LEN SQL_MULTIPLE_ACTIVE_TXN SQL_MULT_RESULT_SETS SQL_NEED_LONG_DATA_LEN SQL_NON_NULLABLE_COLUMNS SQL_ODBC_VER SQL_QUALIFIER_NAME_SEPARATOR SQL_QUOTED_IDENTIFIER_CASE SQL_TXN_CAPABLE SQL_TXN_ISOLATION_OPTION / ) { # some drivers barf on things they do not know about instead # of returning undef my $v = try { $self->_dbh_get_info($inf) }; next unless defined $v; #my $key = sprintf( '%s(%s)', $inf, $DBI::Const::GetInfoType::GetInfoType{$inf} ); my $expl = DBI::Const::GetInfoReturn::Explain($inf, $v); $res->{$inf} = DBI::Const::GetInfoReturn::Format($inf, $v) . ( $expl ? " ($expl)" : '' ); } $res; } sub _determine_driver { my ($self) = @_; if ((not $self->_driver_determined) && (not $self->{_in_determine_driver})) { my $started_connected = 0; local $self->{_in_determine_driver} = 1; if (ref($self) eq __PACKAGE__) { my $driver; if ($self->_dbh) { # we are connected $driver = $self->_dbh->{Driver}{Name}; $started_connected = 1; } else { $driver = $self->_extract_driver_from_connect_info; } if ($driver) { my $storage_class = "DBIx::Class::Storage::DBI::${driver}"; if ($self->load_optional_class($storage_class)) { mro::set_mro($storage_class, 'c3'); bless $self, $storage_class; $self->_rebless(); } else { $self->_warn_undetermined_driver( 'This version of DBIC does not yet seem to supply a driver for ' . "your particular RDBMS and/or connection method ('$driver')." ); } } else { $self->_warn_undetermined_driver( 'Unable to extract a driver name from connect info - this ' . 'should not have happened.' ); } } $self->_driver_determined(1); Class::C3->reinitialize() if DBIx::Class::_ENV_::OLD_MRO; if ($self->can('source_bind_attributes')) { $self->throw_exception( "Your storage subclass @{[ ref $self ]} provides (or inherits) the method " . 'source_bind_attributes() for which support has been removed as of Jan 2013. ' . 'If you are not sure how to proceed please contact the development team via ' . DBIx::Class::_ENV_::HELP_URL ); } $self->_init; # run driver-specific initializations $self->_run_connection_actions if !$started_connected && defined $self->_dbh; } } sub _extract_driver_from_connect_info { my $self = shift; my $drv; # if connect_info is a CODEREF, we have no choice but to connect if ( ref $self->_dbi_connect_info->[0] and reftype $self->_dbi_connect_info->[0] eq 'CODE' ) { $self->_populate_dbh; $drv = $self->_dbh->{Driver}{Name}; } else { # try to use dsn to not require being connected, the driver may still # force a connection later in _rebless to determine version # (dsn may not be supplied at all if all we do is make a mock-schema) # # Use the same regex as the one used by DBI itself (even if the use of # \w is odd given unicode): # https://metacpan.org/source/TIMB/DBI-1.634/DBI.pm#L621 # # DO NOT use https://metacpan.org/source/TIMB/DBI-1.634/DBI.pm#L559-566 # as there is a long-standing precedent of not loading DBI.pm until the # very moment we are actually connecting # ($drv) = ($self->_dbi_connect_info->[0] || '') =~ /^dbi:(\w*)/i; $drv ||= $ENV{DBI_DRIVER}; } return $drv; } sub _determine_connector_driver { my ($self, $conn) = @_; my $dbtype = $self->_dbh_get_info('SQL_DBMS_NAME'); if (not $dbtype) { $self->_warn_undetermined_driver( 'Unable to retrieve RDBMS type (SQL_DBMS_NAME) of the engine behind your ' . "$conn connector - this should not have happened." ); return; } $dbtype =~ s/\W/_/gi; my $subclass = "DBIx::Class::Storage::DBI::${conn}::${dbtype}"; return if $self->isa($subclass); if ($self->load_optional_class($subclass)) { bless $self, $subclass; $self->_rebless; } else { $self->_warn_undetermined_driver( 'This version of DBIC does not yet seem to supply a driver for ' . "your particular RDBMS and/or connection method ('$conn/$dbtype')." ); } } sub _warn_undetermined_driver { my ($self, $msg) = @_; require Data::Dumper::Concise; carp_once ($msg . ' While we will attempt to continue anyway, the results ' . 'are likely to be underwhelming. Please upgrade DBIC, and if this message ' . "does not go away, file a bugreport including the following info:\n" . Data::Dumper::Concise::Dumper($self->_describe_connection) ); } sub _do_connection_actions { my ($self, $method_prefix, $call, @args) = @_; try { if (not ref($call)) { my $method = $method_prefix . $call; $self->$method(@args); } elsif (ref($call) eq 'CODE') { $self->$call(@args); } elsif (ref($call) eq 'ARRAY') { if (ref($call->[0]) ne 'ARRAY') { $self->_do_connection_actions($method_prefix, $_) for @$call; } else { $self->_do_connection_actions($method_prefix, @$_) for @$call; } } else { $self->throw_exception (sprintf ("Don't know how to process conection actions of type '%s'", ref($call)) ); } } catch { if ( $method_prefix =~ /^connect/ ) { # this is an on_connect cycle - we can't just throw while leaving # a handle in an undefined state in our storage object # kill it with fire and rethrow $self->_dbh(undef); $self->throw_exception( $_[0] ); } else { carp "Disconnect action failed: $_[0]"; } }; return $self; } sub connect_call_do_sql { my $self = shift; $self->_do_query(@_); } sub disconnect_call_do_sql { my $self = shift; $self->_do_query(@_); } =head2 connect_call_datetime_setup A no-op stub method, provided so that one can always safely supply the L on_connect_call => 'datetime_setup' This way one does not need to know in advance whether the underlying storage requires any sort of hand-holding when dealing with calendar data. =cut sub connect_call_datetime_setup { 1 } sub _do_query { my ($self, $action) = @_; if (ref $action eq 'CODE') { $action = $action->($self); $self->_do_query($_) foreach @$action; } else { # Most debuggers expect ($sql, @bind), so we need to exclude # the attribute hash which is the second argument to $dbh->do # furthermore the bind values are usually to be presented # as named arrayref pairs, so wrap those here too my @do_args = (ref $action eq 'ARRAY') ? (@$action) : ($action); my $sql = shift @do_args; my $attrs = shift @do_args; my @bind = map { [ undef, $_ ] } @do_args; $self->dbh_do(sub { $_[0]->_query_start($sql, \@bind); $_[1]->do($sql, $attrs, @do_args); $_[0]->_query_end($sql, \@bind); }); } return $self; } =head2 connect_call_rebase_sqlmaker This on-connect call takes as a single argument the name of a class to "rebase" the SQLMaker inheritance hierarchy upon. For this to work properly the target class B inherit from L and L as shown below. This infrastructure is provided to aid recent activity around experimental new aproaches to SQL generation within DBIx::Class. You can (and are encouraged to) mix and match old and new within the same codebase as follows: package DBIx::Class::Awesomer::SQLMaker; # you MUST inherit in this order to get the composition right # you are free to override-without-next::method any part you need use base qw( DBIx::Class::SQLMaker::ClassicExtensions << OPTIONAL::AWESOME::Class::Implementing::ExtraRainbowSauce >> SQL::Abstract::Classic ); << your new code goes here >> ... and then ... my $experimental_schema = $original_schema->connect( sub { $original_schema->storage->dbh }, { # the nested arrayref is important, as per # https://metacpan.org/pod/DBIx::Class::Storage::DBI#on_connect_call on_connect_call => [ [ rebase_sqlmaker => 'DBIx::Class::Awesomer::SQLMaker' ] ], }, ); =cut sub connect_call_rebase_sqlmaker { my( $self, $requested_base_class ) = @_; $self->throw_exception( "The on_connect callee 'rebase_sqlmaker' expects a single plain string argument: the name of the target base class" ) if ( @_ != 2 or ! length( $requested_base_class ) ); my $old_class = ref( $self->sql_maker ); # nothing to do! return if $old_class->isa( $requested_base_class ); my $synthetic_class = "${old_class}__REBASED_ON__${requested_base_class}"; { no strict 'refs'; # skip if we already made that class unless( @{"${synthetic_class}::ISA"} ) { $self->ensure_class_loaded( $requested_base_class ); for my $base (qw( DBIx::Class::SQLMaker::ClassicExtensions SQL::Abstract::Classic )) { $self->throw_exception( "The 'rebase_sqlmaker' target class '$requested_base_class' is not inheriting from '$base', this can not work" ) unless $requested_base_class->isa( $base ); } $self->inject_base( $synthetic_class, $old_class, $requested_base_class ); Class::C3->reinitialize if DBIx::Class::_ENV_::OLD_MRO; } } # force re-build on next access for this particular $storage instance $self->sql_maker_class( $synthetic_class ); $self->_sql_maker( undef ); } sub _connect { my $self = shift; my $info = $self->_dbi_connect_info; $self->throw_exception("You did not provide any connection_info") unless defined $info->[0]; my ($old_connect_via, $dbh); local $DBI::connect_via = 'connect' if $INC{'Apache/DBI.pm'} && $ENV{MOD_PERL}; # this odd anonymous coderef dereference is in fact really # necessary to avoid the unwanted effect described in perl5 # RT#75792 # # in addition the coderef itself can't reside inside the try{} block below # as it somehow triggers a leak under perl -d my $dbh_error_handler_installer = sub { weaken (my $weak_self = $_[0]); # the coderef is blessed so we can distinguish it from externally # supplied handles (which must be preserved) $_[1]->{HandleError} = bless sub { if ($weak_self) { $weak_self->throw_exception("DBI Exception: $_[0]"); } else { # the handler may be invoked by something totally out of # the scope of DBIC DBIx::Class::Exception->throw("DBI Exception (unhandled by DBIC, ::Schema GCed): $_[0]"); } }, '__DBIC__DBH__ERROR__HANDLER__'; }; try { if(ref $info->[0] eq 'CODE') { $dbh = $info->[0]->(); } else { require DBI; $dbh = DBI->connect(@$info); } die $DBI::errstr unless $dbh; die sprintf ("%s fresh DBI handle with a *false* 'Active' attribute. " . 'This handle is disconnected as far as DBIC is concerned, and we can ' . 'not continue', ref $info->[0] eq 'CODE' ? "Connection coderef $info->[0] returned a" : 'DBI->connect($schema->storage->connect_info) resulted in a' ) unless $dbh->FETCH('Active'); # sanity checks unless asked otherwise unless ($self->unsafe) { $self->throw_exception( 'Refusing clobbering of {HandleError} installed on externally supplied ' ."DBI handle $dbh. Either remove the handler or use the 'unsafe' attribute." ) if $dbh->{HandleError} and ref $dbh->{HandleError} ne '__DBIC__DBH__ERROR__HANDLER__'; # Default via _default_dbi_connect_attributes is 1, hence it was an explicit # request, or an external handle. Complain and set anyway unless ($dbh->{RaiseError}) { carp( ref $info->[0] eq 'CODE' ? "The 'RaiseError' of the externally supplied DBI handle is set to false. " ."DBIx::Class will toggle it back to true, unless the 'unsafe' connect " .'attribute has been supplied' : 'RaiseError => 0 supplied in your connection_info, without an explicit ' .'unsafe => 1. Toggling RaiseError back to true' ); $dbh->{RaiseError} = 1; } $dbh_error_handler_installer->($self, $dbh); } } catch { $self->throw_exception("DBI Connection failed: $_") }; $self->_dbh_autocommit($dbh->{AutoCommit}); return $dbh; } sub txn_begin { # this means we have not yet connected and do not know the AC status # (e.g. coderef $dbh), need a full-fledged connection check if (! defined $_[0]->_dbh_autocommit) { $_[0]->ensure_connected; } # Otherwise simply connect or re-connect on pid changes else { $_[0]->_get_dbh; } shift->next::method(@_); } sub _exec_txn_begin { my $self = shift; # if the user is utilizing txn_do - good for him, otherwise we need to # ensure that the $dbh is healthy on BEGIN. # We do this via ->dbh_do instead of ->dbh, so that the ->dbh "ping" # will be replaced by a failure of begin_work itself (which will be # then retried on reconnect) if ($self->{_in_do_block}) { $self->_dbh->begin_work; } else { $self->dbh_do(sub { $_[1]->begin_work }); } } sub txn_commit { my $self = shift; $self->throw_exception("Unable to txn_commit() on a disconnected storage") unless $self->_seems_connected; # 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 _exec_txn_commit { shift->_dbh->commit; } sub txn_rollback { my $self = shift; $self->throw_exception("Unable to txn_rollback() on a disconnected storage") unless $self->_seems_connected; # 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); } $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 ! $self->_dbh_autocommit ); } sub _exec_txn_rollback { shift->_dbh->rollback; } # generate the DBI-specific stubs, which then fallback to ::Storage proper quote_sub __PACKAGE__ . "::$_" => sprintf (<<'EOS', $_) for qw(svp_begin svp_release svp_rollback); $_[0]->throw_exception('Unable to %s() on a disconnected storage') unless $_[0]->_seems_connected; shift->next::method(@_); EOS # 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, $ident, $args) = @_; return shift->_gen_sql_bind(@_) } sub _gen_sql_bind { my ($self, $op, $ident, $args) = @_; my ($colinfos, $from); if ( blessed($ident) ) { $from = $ident->from; $colinfos = $ident->columns_info; } my ($sql, $bind); ($sql, @$bind) = $self->sql_maker->$op( ($from || $ident), @$args ); $bind = $self->_resolve_bindattrs( $ident, [ @{$args->[2]{bind}||[]}, @$bind ], $colinfos ); if ( ! $ENV{DBIC_DT_SEARCH_OK} and $op eq 'select' and grep { length ref $_->[1] and blessed($_->[1]) and $_->[1]->isa('DateTime') } @$bind ) { carp_unique 'DateTime objects passed to search() are not supported ' . 'properly (InflateColumn::DateTime formats and settings are not ' . 'respected.) See ".. format a DateTime object for searching?" in ' . 'DBIx::Class::Manual::FAQ. To disable this warning for good ' . 'set $ENV{DBIC_DT_SEARCH_OK} to true' } return( $sql, $bind ); } sub _resolve_bindattrs { my ($self, $ident, $bind, $colinfos) = @_; my $resolve_bindinfo = sub { #my $infohash = shift; $colinfos ||= { %{ $self->_resolve_column_info($ident) } }; my $ret; if (my $col = $_[0]->{dbic_colname}) { $ret = { %{$_[0]} }; $ret->{sqlt_datatype} ||= $colinfos->{$col}{data_type} if $colinfos->{$col}{data_type}; $ret->{sqlt_size} ||= $colinfos->{$col}{size} if $colinfos->{$col}{size}; } $ret || $_[0]; }; return [ map { ( ref $_ ne 'ARRAY' or @$_ != 2 ) ? [ {}, $_ ] : ( ! defined $_->[0] ) ? [ {}, $_->[1] ] : (ref $_->[0] eq 'HASH') ? [( ! keys %{$_->[0]} or exists $_->[0]{dbd_attrs} or $_->[0]{sqlt_datatype} ) ? $_->[0] : $resolve_bindinfo->($_->[0]) , $_->[1] ] : (ref $_->[0] eq 'SCALAR') ? [ { sqlt_datatype => ${$_->[0]} }, $_->[1] ] : [ $resolve_bindinfo->( { dbic_colname => $_->[0] } ), $_->[1] ] } @$bind ]; } sub _format_for_trace { #my ($self, $bind) = @_; ### Turn @bind from something like this: ### ( [ "artist", 1 ], [ \%attrs, 3 ] ) ### to this: ### ( "'1'", "'3'" ) map { defined( $_ && $_->[1] ) ? qq{'$_->[1]'} : q{NULL} } @{$_[1] || []}; } sub _query_start { my ( $self, $sql, $bind ) = @_; $self->debugobj->query_start( $sql, $self->_format_for_trace($bind) ) if $self->debug; } sub _query_end { my ( $self, $sql, $bind ) = @_; $self->debugobj->query_end( $sql, $self->_format_for_trace($bind) ) if $self->debug; } sub _dbi_attrs_for_bind { my ($self, $ident, $bind) = @_; my @attrs; for (map { $_->[0] } @$bind) { push @attrs, do { if (exists $_->{dbd_attrs}) { $_->{dbd_attrs} } elsif($_->{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}}; } else { undef; # always push something at this position } } } return \@attrs; } sub _execute { my ($self, $op, $ident, @args) = @_; my ($sql, $bind) = $self->_prep_for_execute($op, $ident, \@args); # not even a PID check - we do not care about the state of the _dbh. # All we need is to get the appropriate drivers loaded if they aren't # already so that the assumption in ad7c50fc26e holds $self->_populate_dbh unless $self->_dbh; $self->dbh_do( _dbh_execute => # retry over disconnects $sql, $bind, $self->_dbi_attrs_for_bind($ident, $bind), ); } sub _dbh_execute { my ($self, $dbh, $sql, $bind, $bind_attrs) = @_; $self->_query_start( $sql, $bind ); my $sth = $self->_bind_sth_params( $self->_prepare_sth($dbh, $sql), $bind, $bind_attrs, ); # Can this fail without throwing an exception anyways??? my $rv = $sth->execute(); $self->throw_exception( $sth->errstr || $sth->err || 'Unknown error: execute() returned false, but error flags were not set...' ) if !$rv; $self->_query_end( $sql, $bind ); return (wantarray ? ($rv, $sth, @$bind) : $rv); } sub _prepare_sth { my ($self, $dbh, $sql) = @_; # 3 is the if_active parameter which avoids active sth re-use my $sth = $self->disable_sth_caching ? $dbh->prepare($sql) : $dbh->prepare_cached($sql, {}, 3); # XXX You would think RaiseError would make this impossible, # but apparently that's not true :( $self->throw_exception( $dbh->errstr || sprintf( "\$dbh->prepare() of '%s' through %s failed *silently* without " .'an exception and/or setting $dbh->errstr', length ($sql) > 20 ? substr($sql, 0, 20) . '...' : $sql , 'DBD::' . $dbh->{Driver}{Name}, ) ) if !$sth; $sth; } sub _bind_sth_params { my ($self, $sth, $bind, $bind_attrs) = @_; 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 { # FIXME SUBOPTIMAL - DBI needs fixing to always stringify regardless of DBD my $v = ( length ref $bind->[$i][1] and is_plain_value $bind->[$i][1] ) ? "$bind->[$i][1]" : $bind->[$i][1] ; $sth->bind_param( $i + 1, # The temp-var is CRUCIAL - DO NOT REMOVE IT, breaks older DBD::SQLite RT#79576 $v, $bind_attrs->[$i], ); } } $sth; } sub _prefetch_autovalues { my ($self, $source, $colinfo, $to_insert) = @_; my %values; for my $col (keys %$colinfo) { if ( $colinfo->{$col}{auto_nextval} and ( ! exists $to_insert->{$col} or is_literal_value($to_insert->{$col}) ) ) { $values{$col} = $self->_sequence_fetch( 'NEXTVAL', ( $colinfo->{$col}{sequence} ||= $self->_dbh_get_autoinc_seq($self->_get_dbh, $source, $col) ), ); } } \%values; } sub insert { my ($self, $source, $to_insert) = @_; my $col_infos = $source->columns_info; my $prefetched_values = $self->_prefetch_autovalues($source, $col_infos, $to_insert); # 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 }; my %pcols = map { $_ => 1 } $source->primary_columns; my (%retrieve_cols, $autoinc_supplied, $retrieve_autoinc_col); for my $col ($source->columns) { # first autoinc wins - this is why ->columns() in-order iteration is important # # FIXME - there ought to be a sanity-check for multiple is_auto_increment settings # or something... # if ($col_infos->{$col}{is_auto_increment}) { # FIXME - we seem to assume undef values as non-supplied. # This is wrong. # Investigate what does it take to s/defined/exists/ # ( fails t/cdbi/copy.t amoong other things ) $autoinc_supplied ||= 1 if defined $to_insert->{$col}; $retrieve_autoinc_col ||= $col unless $autoinc_supplied; } # nothing to retrieve when explicit values are supplied next if ( # FIXME - we seem to assume undef values as non-supplied. # This is wrong. # Investigate what does it take to s/defined/exists/ # ( fails t/cdbi/copy.t amoong other things ) defined $to_insert->{$col} and ( # not a ref - cheaper to check before a call to is_literal_value() ! length ref $to_insert->{$col} or # not a literal we *MAY* need to pull out ( see check below ) ! is_literal_value( $to_insert->{$col} ) ) ); # 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} ); }; # corner case of a non-supplied PK which is *not* declared as autoinc if ( ! $autoinc_supplied and ! defined $retrieve_autoinc_col and # FIXME - first come-first serve, suboptimal... ($retrieve_autoinc_col) = ( grep { $pcols{$_} and ! $col_infos->{$_}{retrieve_on_insert} and ! defined $col_infos->{$_}{is_auto_increment} } sort { $retrieve_cols{$a} <=> $retrieve_cols{$b} } keys %retrieve_cols ) ) { carp_unique( "Missing value for primary key column '$retrieve_autoinc_col' on " . "@{[ $source->source_name ]} - perhaps you forgot to set its " . "'is_auto_increment' attribute during add_columns()? Treating " . "'$retrieve_autoinc_col' implicitly as an autoinc, and attempting " . 'value retrieval' ); } local $self->{_autoinc_supplied_for_op} = $autoinc_supplied; local $self->{_perform_autoinc_retrieval} = $retrieve_autoinc_col; my ($sqla_opts, @ir_container); if (%retrieve_cols and $self->_use_insert_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 ($rv, $sth) = $self->_execute('insert', $source, $to_insert, $sqla_opts); my %returned_cols = %$to_insert; if (my $retlist = $sqla_opts->{returning}) { # if IR is supported - we will get everything in one set unless( @ir_container ) { try { # FIXME - need to investigate why Caelum silenced this in 4d4dc518 local $SIG{__WARN__} = sub {}; @ir_container = $sth->fetchrow_array; $sth->finish; } catch { # Evict the $sth from the cache in case we got here, since the finish() # is crucial, at least on older Firebirds, possibly on other engines too # # It would be too complex to make this a proper subclass override, # and besides we already take the try{} penalty, adding a catch that # triggers infrequently is a no-brainer # if( my $kids = $self->_dbh->{CachedKids} ) { $kids->{$_} == $sth and delete $kids->{$_} for keys %$kids } }; } @returned_cols{@$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{@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 }; } sub insert_bulk { carp_unique( 'insert_bulk() should have never been exposed as a public method and ' . 'calling it is depecated as of Aug 2014. If you believe having a genuine ' . 'use for this method please contact the development team via ' . DBIx::Class::_ENV_::HELP_URL ); return '0E0' unless @{$_[3]||[]}; shift->_insert_bulk(@_); } sub _insert_bulk { my ($self, $source, $cols, $data) = @_; $self->throw_exception('Calling _insert_bulk without a dataset to process makes no sense') unless @{$data||[]}; my $colinfos = $source->columns_info($cols); local $self->{_autoinc_supplied_for_op} = (grep { $_->{is_auto_increment} } values %$colinfos) ? 1 : 0 ; # 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 SQLMaker 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, $serialized_bind_type_by_col_idx); for my $col_idx (0..$#$cols) { my $colname = $cols->[$col_idx]; if (ref $data->[0][$col_idx] eq 'SCALAR') { # no bind value at all - no type $proto_data->{$colname} = $data->[0][$col_idx]; } elsif (ref $data->[0][$col_idx] eq 'REF' and ref ${$data->[0][$col_idx]} eq 'ARRAY' ) { # repack, so we don't end up mangling the original \[] my ($sql, @bind) = @${$data->[0][$col_idx]}; # normalization of user supplied stuff my $resolved_bind = $self->_resolve_bindattrs( $source, \@bind, $colinfos, ); # store value-less (attrs only) bind info - we will be comparing all # supplied binds against this for sanity $serialized_bind_type_by_col_idx->{$col_idx} = serialize [ 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 => $col_idx, _literal_bind_subindex => $_+1 } => $resolved_bind->[$_][1] ] } (0 .. $#bind) ]; } else { $serialized_bind_type_by_col_idx->{$col_idx} = undef; $proto_data->{$colname} = \[ '?', [ { dbic_colname => $colname, _bind_data_slice_idx => $col_idx } => $data->[0][$col_idx] ] ]; } } my ($sql, $proto_bind) = $self->_prep_for_execute ( 'insert', $source, [ $proto_data ], ); if (! @$proto_bind and keys %$serialized_bind_type_by_col_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('Unable to invoke fast-path insert without storage placeholder support'); } # 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, $cols->[$c_idx], do { require Data::Dumper::Concise; local $Data::Dumper::Maxdepth = 5; Data::Dumper::Concise::Dumper ({ map { $cols->[$_] => $data->[$r_idx][$_] } 0..$#$cols }), } ); }; for my $col_idx (0..$#$cols) { my $reference_val = $data->[0][$col_idx]; 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 (! exists $serialized_bind_type_by_col_idx->{$col_idx}) { # literal no binds if (ref $val ne 'SCALAR') { $bad_slice_report_cref->( "Incorrect value (expecting SCALAR-ref \\'$$reference_val')", $row_idx, $col_idx, ); } elsif ($$val ne $$reference_val) { $bad_slice_report_cref->( "Inconsistent literal SQL value (expecting \\'$$reference_val')", $row_idx, $col_idx, ); } } elsif (! defined $serialized_bind_type_by_col_idx->{$col_idx} ) { # regular non-literal value if (is_literal_value($val)) { $bad_slice_report_cref->("Literal SQL found where a plain bind value is expected", $row_idx, $col_idx); } } else { # binds from a \[], compare type and attrs if (ref $val ne 'REF' or ref $$val ne 'ARRAY') { $bad_slice_report_cref->( "Incorrect value (expecting ARRAYREF-ref \\['${$reference_val}->[0]', ... ])", $row_idx, $col_idx, ); } # start drilling down and bail out early on identical refs elsif ( $reference_val != $val or $$reference_val != $$val ) { if (${$val}->[0] ne ${$reference_val}->[0]) { $bad_slice_report_cref->( "Inconsistent literal/bind SQL (expecting \\['${$reference_val}->[0]', ... ])", $row_idx, $col_idx, ); } # need to check the bind attrs - a bind will happen only once for # the entire dataset, so any changes further down will be ignored. elsif ( $serialized_bind_type_by_col_idx->{$col_idx} ne serialize [ map { $_->[0] } @{$self->_resolve_bindattrs( $source, [ @{$$val}[1 .. $#$$val] ], $colinfos, )} ] ) { $bad_slice_report_cref->( 'Differing bind attributes on literal/bind values not supported', $row_idx, $col_idx, ); } } } } } # 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( $sql, @$proto_bind ? [[undef => '__BULK_INSERT__' ]] : () ); my $sth = $self->_prepare_sth($self->_dbh, $sql); my $rv = do { if (@$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->_dbh_execute_inserts_with_no_binds( $sth, scalar @$data ); } }; $self->_query_end( $sql, @$proto_bind ? [[ undef => '__BULK_INSERT__' ]] : () ); $guard->commit; return wantarray ? ($rv, $sth, @$proto_bind) : $rv; } # execute_for_fetch is capable of returning data just fine (it means it # can be used for INSERT...RETURNING and UPDATE...RETURNING. Since this # is the void-populate fast-path we will just ignore this altogether # for the time being. sub _dbh_execute_for_fetch { my ($self, $source, $sth, $proto_bind, $cols, $data) = @_; # 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 my $bind_attrs = $self->_dbi_attrs_for_bind($source, $proto_bind); for my $i (0 .. $#$proto_bind) { $sth->bind_param ( $i+1, # DBI bind indexes are 1-based $proto_bind->[$i][1], $bind_attrs->[$i], ) if defined $bind_attrs->[$i]; } # 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 $fetch_row_idx = -1; # saner loop this way my $fetch_tuple = sub { return undef if ++$fetch_row_idx > $#$data; return [ map { my $v = ! defined $_->{_literal_bind_subindex} ? $data->[ $fetch_row_idx ]->[ $_->{_bind_data_slice_idx} ] # There are no attributes to resolve here - we already did everything # when we constructed proto_bind. However we still want to sanity-check # what the user supplied, so pass stuff through to the resolver *anyway* : $self->_resolve_bindattrs ( undef, # a fake rsrc [ ${ $data->[ $fetch_row_idx ]->[ $_->{_bind_data_slice_idx} ]}->[ $_->{_literal_bind_subindex} ] ], {}, # a fake column_info bag )->[0][1] ; # FIXME SUBOPTIMAL - DBI needs fixing to always stringify regardless of DBD # For the time being forcibly stringify whatever is stringifiable (length ref $v and is_plain_value $v) ? "$v" : $v ; } map { $_->[0] } @$proto_bind ]; }; my $tuple_status = []; my ($rv, $err); try { $rv = $sth->execute_for_fetch( $fetch_tuple, $tuple_status, ); } catch { $err = shift; }; # Not all DBDs are create equal. Some throw on error, some return # an undef $rv, and some set $sth->err - try whatever we can $err = ($sth->errstr || 'UNKNOWN ERROR ($sth->errstr is unset)') if ( ! defined $err and ( !defined $rv or $sth->err ) ); # Statement must finish even if there was an exception. try { $sth->finish } catch { $err = shift unless defined $err }; if (defined $err) { my $i = 0; ++$i while $i <= $#$tuple_status && !ref $tuple_status->[$i]; $self->throw_exception("Unexpected populate error: $err") if ($i > $#$tuple_status); require Data::Dumper::Concise; $self->throw_exception(sprintf "execute_for_fetch() aborted with '%s' at populate slice:\n%s", ($tuple_status->[$i][1] || $err), Data::Dumper::Concise::Dumper( { map { $cols->[$_] => $data->[$i][$_] } (0 .. $#$cols) } ), ); } return $rv; } sub _dbh_execute_inserts_with_no_binds { my ($self, $sth, $count) = @_; my $err; try { my $dbh = $self->_get_dbh; local $dbh->{RaiseError} = 1; local $dbh->{PrintError} = 0; $sth->execute foreach 1..$count; } catch { $err = shift; }; # Make sure statement is finished even if there was an exception. try { $sth->finish } catch { $err = shift unless defined $err; }; $self->throw_exception($err) if defined $err; return $count; } sub update { #my ($self, $source, @args) = @_; shift->_execute('update', @_); } sub delete { #my ($self, $source, @args) = @_; shift->_execute('delete', @_); } sub _select { my $self = shift; $self->_execute($self->_select_args(@_)); } sub _select_args_to_query { my $self = shift; $self->throw_exception( "Unable to generate limited query representation with 'software_limit' enabled" ) if ($_[3]->{software_limit} and ($_[3]->{offset} or $_[3]->{rows}) ); # my ($op, $ident, $select, $cond, $rs_attrs, $rows, $offset) # = $self->_select_args($ident, $select, $cond, $attrs); my ($op, $ident, @args) = $self->_select_args(@_); # my ($sql, $prepared_bind) = $self->_gen_sql_bind($op, $ident, [ $select, $cond, $rs_attrs, $rows, $offset ]); my ($sql, $bind) = $self->_gen_sql_bind($op, $ident, \@args); # reuse the bind arrayref unshift @{$bind}, "($sql)"; \$bind; } sub _select_args { my ($self, $ident, $select, $where, $orig_attrs) = @_; # FIXME - that kind of caching would be nice to have # however currently we *may* pass the same $orig_attrs # with different ident/select/where # the whole interface needs to be rethought, since it # was centered around the flawed SQLMaker API. We can do # soooooo much better now. But that is also another # battle... #return ( # 'select', $orig_attrs->{!args_as_stored_at_the_end_of_this_method!} #) if $orig_attrs->{!args_as_stored_at_the_end_of_this_method!}; my $sql_maker = $self->sql_maker; my $attrs = { %$orig_attrs, select => $select, from => $ident, where => $where, }; # 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 ); } if (defined $attrs->{rows}) { $self->throw_exception("The rows attribute must be a positive integer if present") if ( $attrs->{rows} =~ /\D/ or $attrs->{rows} <= 0 ); } elsif ($attrs->{offset}) { # MySQL actually recommends this approach. I cringe. $attrs->{rows} = $sql_maker->__max_int; } # see if we will need to tear the prefetch apart to satisfy group_by == select # this is *extremely tricky* to get right, I am still not sure I did # my ($prefetch_needs_subquery, @limit_args); if ( $attrs->{_grouped_by_distinct} and $attrs->{collapse} ) { # we already know there is a valid group_by (we made it) and we know it is # intended to be based *only* on non-multi stuff # short circuit the group_by parsing below $prefetch_needs_subquery = 1; } elsif ( # The rationale is that even if we do *not* have collapse, we still # need to wrap the core grouped select/group_by in a subquery # so that databases that care about group_by/select equivalence # are happy (this includes MySQL in strict_mode) # If any of the other joined tables are referenced in the group_by # however - the user is on their own ( $prefetch_needs_subquery or ! $attrs->{_simple_passthrough_construction} ) and $attrs->{group_by} and @{$attrs->{group_by}} and my $grp_aliases = try { # try{} because $attrs->{from} may be unreadable $self->_resolve_aliastypes_from_select_args({ from => $attrs->{from}, group_by => $attrs->{group_by} }) } ) { # no aliases other than our own in group_by # if there are - do not allow subquery even if limit is present $prefetch_needs_subquery = ! scalar grep { $_ ne $attrs->{alias} } keys %{ $grp_aliases->{grouping} || {} }; } elsif ( $attrs->{rows} && $attrs->{collapse} ) { # active collapse with a limit - that one is a no-brainer unless # overruled by a group_by above $prefetch_needs_subquery = 1; } if ($prefetch_needs_subquery) { $attrs = $self->_adjust_select_args_for_complex_prefetch ($attrs); } elsif (! $attrs->{software_limit} ) { push @limit_args, ( $attrs->{rows} || (), $attrs->{offset} || (), ); } # try to simplify the joinmap further (prune unreferenced type-single joins) if ( ! $prefetch_needs_subquery # already pruned and ref $attrs->{from} and reftype $attrs->{from} eq 'ARRAY' and @{$attrs->{from}} != 1 ) { ($attrs->{from}, $attrs->{_aliastypes}) = $self->_prune_unused_joins ($attrs); } # FIXME this is a gross, inefficient, largely incorrect and fragile hack # during the result inflation stage we *need* to know what was the aliastype # map as sqla saw it when the final pieces of SQL were being assembled # Originally we simply carried around the entirety of $attrs, but this # resulted in resultsets that are being reused growing continuously, as # the hash in question grew deeper and deeper. # Instead hand-pick what to take with us here (we actually don't need much # at this point just the map itself) $orig_attrs->{_last_sqlmaker_alias_map} = $attrs->{_aliastypes}; ### # my $alias2source = $self->_resolve_ident_sources ($ident); # # This would be the point to deflate anything found in $attrs->{where} # (and leave $attrs->{bind} intact). Problem is - inflators historically # expect a result object. And all we have is a resultsource (it is trivial # to extract deflator coderefs via $alias2source above). # # I don't see a way forward other than changing the way deflators are # invoked, and that's just bad... ### return ( 'select', @{$attrs}{qw(from select where)}, $attrs, @limit_args ); } # Returns a counting SELECT for a simple count # query. Abstracted so that a storage could override # this to { count => 'firstcol' } or whatever makes # sense as a performance optimization sub _count_select { #my ($self, $source, $rs_attrs) = @_; return { count => '*' }; } =head2 select =over 4 =item Arguments: $ident, $select, $condition, $attrs =back Handle a SQL select statement. =cut sub select { my $self = shift; my ($ident, $select, $condition, $attrs) = @_; return $self->cursor_class->new($self, \@_, $attrs); } sub select_single { my $self = shift; my ($rv, $sth, @bind) = $self->_select(@_); my @row = $sth->fetchrow_array; my @nextrow = $sth->fetchrow_array if @row; if(@row && @nextrow) { carp "Query returned more than one row. SQL that returns multiple rows is DEPRECATED for ->find and ->single"; } # Need to call finish() to work round broken DBDs $sth->finish(); return @row; } =head2 sql_limit_dialect This is an accessor for the default SQL limit dialect used by a particular storage driver. Can be overridden by supplying an explicit L to L. For a list of available limit dialects see L. =cut sub _dbh_columns_info_for { my ($self, $dbh, $table) = @_; if ($dbh->can('column_info')) { my %result; my $caught; try { my ($schema,$tab) = $table =~ /^(.+?)\.(.+)$/ ? ($1,$2) : (undef,$table); my $sth = $dbh->column_info( undef,$schema, $tab, '%' ); $sth->execute(); while ( my $info = $sth->fetchrow_hashref() ){ my %column_info; $column_info{data_type} = $info->{TYPE_NAME}; $column_info{size} = $info->{COLUMN_SIZE}; $column_info{is_nullable} = $info->{NULLABLE} ? 1 : 0; $column_info{default_value} = $info->{COLUMN_DEF}; my $col_name = $info->{COLUMN_NAME}; $col_name =~ s/^\"(.*)\"$/$1/; $result{$col_name} = \%column_info; } } catch { $caught = 1; }; return \%result if !$caught && scalar keys %result; } my %result; my $sth = $dbh->prepare($self->sql_maker->select($table, undef, \'1 = 0')); $sth->execute; my @columns = @{$sth->{NAME_lc}}; for my $i ( 0 .. $#columns ){ my %column_info; $column_info{data_type} = $sth->{TYPE}->[$i]; $column_info{size} = $sth->{PRECISION}->[$i]; $column_info{is_nullable} = $sth->{NULLABLE}->[$i] ? 1 : 0; if ($column_info{data_type} =~ m/^(.*?)\((.*?)\)$/) { $column_info{data_type} = $1; $column_info{size} = $2; } $result{$columns[$i]} = \%column_info; } $sth->finish; foreach my $col (keys %result) { my $colinfo = $result{$col}; my $type_num = $colinfo->{data_type}; my $type_name; if(defined $type_num && $dbh->can('type_info')) { my $type_info = $dbh->type_info($type_num); $type_name = $type_info->{TYPE_NAME} if $type_info; $colinfo->{data_type} = $type_name if $type_name; } } return \%result; } sub columns_info_for { my ($self, $table) = @_; $self->_dbh_columns_info_for ($self->_get_dbh, $table); } =head2 last_insert_id Return the row id of the last insert. =cut sub _dbh_last_insert_id { my ($self, $dbh, $source, $col) = @_; my $id = try { $dbh->last_insert_id (undef, undef, $source->name, $col) }; return $id if defined $id; my $class = ref $self; $self->throw_exception ("No storage specific _dbh_last_insert_id() method implemented in $class, and the generic DBI::last_insert_id() failed"); } sub last_insert_id { my $self = shift; $self->_dbh_last_insert_id ($self->_dbh, @_); } =head2 _native_data_type =over 4 =item Arguments: $type_name =back This API is B, will almost definitely change in the future, and currently only used by L<::AutoCast|DBIx::Class::Storage::DBI::AutoCast> and L<::Sybase::ASE|DBIx::Class::Storage::DBI::Sybase::ASE>. The default implementation returns C, implement in your Storage driver if you need this functionality. Should map types from other databases to the native RDBMS type, for example C to C. Types with modifiers should map to the underlying data type. For example, C should become C. Composite types should map to the container type, for example C becomes C. =cut sub _native_data_type { #my ($self, $data_type) = @_; return undef } # Check if placeholders are supported at all sub _determine_supports_placeholders { my $self = shift; my $dbh = $self->_get_dbh; # some drivers provide a $dbh attribute (e.g. Sybase and $dbh->{syb_dynamic_supported}) # but it is inaccurate more often than not return try { local $dbh->{PrintError} = 0; local $dbh->{RaiseError} = 1; $dbh->do('select ?', {}, 1); 1; } catch { 0; }; } # Check if placeholders bound to non-string types throw exceptions # sub _determine_supports_typeless_placeholders { my $self = shift; my $dbh = $self->_get_dbh; return try { local $dbh->{PrintError} = 0; local $dbh->{RaiseError} = 1; # this specifically tests a bind that is NOT a string $dbh->do('select 1 where 1 = ?', {}, 1); 1; } catch { 0; }; } =head2 sqlt_type Returns the database driver name. =cut sub sqlt_type { shift->_get_dbh->{Driver}->{Name}; } =head2 bind_attribute_by_data_type Given a datatype from column info, returns a database specific bind attribute for C<< $dbh->bind_param($val,$attribute) >> or nothing if we will let the database planner just handle it. This method is always called after the driver has been determined and a DBI connection has been established. Therefore you can refer to C and/or C directly, without worrying about loading the correct modules. =cut sub bind_attribute_by_data_type { return; } =head2 is_datatype_numeric Given a datatype from column_info, returns a boolean value indicating if the current RDBMS considers it a numeric value. This controls how L decides whether to mark the column as dirty - when the datatype is deemed numeric a C<< != >> comparison will be performed instead of the usual C. =cut sub is_datatype_numeric { #my ($self, $dt) = @_; return 0 unless $_[1]; $_[1] =~ /^ (?: numeric | int(?:eger)? | (?:tiny|small|medium|big)int | dec(?:imal)? | real | float | double (?: \s+ precision)? | (?:big)?serial ) $/ix; } =head2 create_ddl_dir =over 4 =item Arguments: $schema, \@databases, $version, $directory, $preversion, \%sqlt_args =back Creates a SQL file based on the Schema, for each of the specified database engines in C<\@databases> in the given directory. (note: specify L names, not L driver names). Given a previous version number, this will also create a file containing the ALTER TABLE statements to transform the previous schema into the current one. Note that these statements may contain C or C statements that can potentially destroy data. The file names are created using the C method below, please override this method in your schema if you would like a different file name format. For the ALTER file, the same format is used, replacing $version in the name with "$preversion-$version". See L for a list of values for C<\%sqlt_args>. The most common value for this would be C<< { add_drop_table => 1 } >> to have the SQL produced include a C statement for each table created. For quoting purposes supply C. If no arguments are passed, then the following default values are assumed: =over 4 =item databases - ['MySQL', 'SQLite', 'PostgreSQL'] =item version - $schema->schema_version =item directory - './' =item preversion - =back By default, C<\%sqlt_args> will have { add_drop_table => 1, ignore_constraint_names => 1, ignore_index_names => 1 } merged with the hash passed in. To disable any of those features, pass in a hashref like the following { ignore_constraint_names => 0, # ... other options } WARNING: You are strongly advised to check all SQL files created, before applying them. =cut sub create_ddl_dir { my ($self, $schema, $databases, $version, $dir, $preversion, $sqltargs) = @_; unless ($dir) { carp "No directory given, using ./\n"; $dir = './'; } else { -d $dir or (require File::Path and File::Path::mkpath (["$dir"])) # mkpath does not like objects (i.e. Path::Class::Dir) or $self->throw_exception( "Failed to create '$dir': " . ($! || $@ || 'error unknown') ); } $self->throw_exception ("Directory '$dir' does not exist\n") unless(-d $dir); $databases ||= ['MySQL', 'SQLite', 'PostgreSQL']; $databases = [ $databases ] if(ref($databases) ne 'ARRAY'); my $schema_version = $schema->schema_version || '1.x'; $version ||= $schema_version; $sqltargs = { add_drop_table => 1, ignore_constraint_names => 1, ignore_index_names => 1, quote_identifiers => $self->sql_maker->_quoting_enabled, %{$sqltargs || {}} }; unless (DBIx::Class::Optional::Dependencies->req_ok_for ('deploy')) { $self->throw_exception("Can't create a ddl file without " . DBIx::Class::Optional::Dependencies->req_missing_for ('deploy') ); } my $sqlt = SQL::Translator->new( $sqltargs ); $sqlt->parser('SQL::Translator::Parser::DBIx::Class'); my $sqlt_schema = $sqlt->translate({ data => $schema }) or $self->throw_exception ($sqlt->error); foreach my $db (@$databases) { $sqlt->reset(); $sqlt->{schema} = $sqlt_schema; $sqlt->producer($db); my $file; my $filename = $schema->ddl_filename($db, $version, $dir); if (-e $filename && ($version eq $schema_version )) { # if we are dumping the current version, overwrite the DDL carp "Overwriting existing DDL file - $filename"; unlink($filename); } my $output = $sqlt->translate; if(!$output) { carp("Failed to translate to $db, skipping. (" . $sqlt->error . ")"); next; } if(!open($file, ">$filename")) { $self->throw_exception("Can't open $filename for writing ($!)"); next; } print $file $output; close($file); next unless ($preversion); require SQL::Translator::Diff; my $prefilename = $schema->ddl_filename($db, $preversion, $dir); if(!-e $prefilename) { carp("No previous schema file found ($prefilename)"); next; } my $difffile = $schema->ddl_filename($db, $version, $dir, $preversion); if(-e $difffile) { carp("Overwriting existing diff file - $difffile"); unlink($difffile); } my $source_schema; { my $t = SQL::Translator->new($sqltargs); $t->debug( 0 ); $t->trace( 0 ); $t->parser( $db ) or $self->throw_exception ($t->error); my $out = $t->translate( $prefilename ) or $self->throw_exception ($t->error); $source_schema = $t->schema; $source_schema->name( $prefilename ) unless ( $source_schema->name ); } # The "new" style of producers have sane normalization and can support # diffing a SQL file against a DBIC->SQLT schema. Old style ones don't # And we have to diff parsed SQL against parsed SQL. my $dest_schema = $sqlt_schema; unless ( "SQL::Translator::Producer::$db"->can('preprocess_schema') ) { my $t = SQL::Translator->new($sqltargs); $t->debug( 0 ); $t->trace( 0 ); $t->parser( $db ) or $self->throw_exception ($t->error); my $out = $t->translate( $filename ) or $self->throw_exception ($t->error); $dest_schema = $t->schema; $dest_schema->name( $filename ) unless $dest_schema->name; } my $diff = do { # FIXME - this is a terrible workaround for # https://github.com/dbsrgits/sql-translator/commit/2d23c1e # Fixing it in this sloppy manner so that we don't hve to # lockstep an SQLT release as well. Needs to be removed at # some point, and SQLT dep bumped local $SQL::Translator::Producer::SQLite::NO_QUOTES if $SQL::Translator::Producer::SQLite::NO_QUOTES; SQL::Translator::Diff::schema_diff($source_schema, $db, $dest_schema, $db, $sqltargs ); }; if(!open $file, ">$difffile") { $self->throw_exception("Can't write to $difffile ($!)"); next; } print $file $diff; close($file); } } =head2 deployment_statements =over 4 =item Arguments: $schema, $type, $version, $directory, $sqlt_args =back Returns the statements used by L and L. The L (not L) database driver name can be explicitly provided in C<$type>, otherwise the result of L is used as default. C<$directory> is used to return statements from files in a previously created L directory and is optional. The filenames are constructed from L, the schema name and the C<$version>. If no C<$directory> is specified then the statements are constructed on the fly using L and C<$version> is ignored. See L for a list of values for C<$sqlt_args>. =cut sub deployment_statements { my ($self, $schema, $type, $version, $dir, $sqltargs) = @_; $type ||= $self->sqlt_type; $version ||= $schema->schema_version || '1.x'; $dir ||= './'; 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 $filename ($!)"); my @rows = <$file>; close($file); return join('', @rows); } unless (DBIx::Class::Optional::Dependencies->req_ok_for ('deploy') ) { $self->throw_exception("Can't deploy without a ddl_dir or " . DBIx::Class::Optional::Dependencies->req_missing_for ('deploy') ); } # sources needs to be a parser arg, but for simplicity allow at top level # coming in $sqltargs->{parser_args}{sources} = delete $sqltargs->{sources} if exists $sqltargs->{sources}; $sqltargs->{quote_identifiers} = $self->sql_maker->_quoting_enabled unless exists $sqltargs->{quote_identifiers}; my $tr = SQL::Translator->new( producer => "SQL::Translator::Producer::${type}", %$sqltargs, parser => 'SQL::Translator::Parser::DBIx::Class', data => $schema, ); return preserve_context { $tr->translate } after => sub { $self->throw_exception( 'Unable to produce deployment statements: ' . $tr->error) unless defined $_[0]; }; } # FIXME deploy() currently does not accurately report sql errors # Will always return true while errors are warned sub deploy { my ($self, $schema, $type, $sqltargs, $dir) = @_; my $deploy = sub { my $line = shift; return if(!$line); return if($line =~ /^--/); # next if($line =~ /^DROP/m); return if($line =~ /^BEGIN TRANSACTION/m); return if($line =~ /^COMMIT/m); return if $line =~ /^\s+$/; # skip whitespace only $self->_query_start($line); try { # do a dbh_do cycle here, as we need some error checking in # place (even though we will ignore errors) $self->dbh_do (sub { $_[1]->do($line) }); } catch { carp qq{$_ (running "${line}")}; }; $self->_query_end($line); }; my @statements = $schema->deployment_statements($type, undef, $dir, { %{ $sqltargs || {} }, no_comments => 1 } ); if (@statements > 1) { foreach my $statement (@statements) { $deploy->( $statement ); } } elsif (@statements == 1) { # split on single line comments and end of statements foreach my $line ( split(/\s*--.*\n|;\n/, $statements[0])) { $deploy->( $line ); } } } =head2 datetime_parser Returns the datetime parser class =cut sub datetime_parser { my $self = shift; return $self->{datetime_parser} ||= do { $self->build_datetime_parser(@_); }; } =head2 datetime_parser_type Defines the datetime parser class - currently defaults to L =head2 build_datetime_parser See L =cut sub build_datetime_parser { my $self = shift; my $type = $self->datetime_parser_type(@_); return $type; } =head2 is_replicating A boolean that reports if a particular L is set to replicate from a master database. Default is undef, which is the result returned by databases that don't support replication. =cut sub is_replicating { return; } =head2 lag_behind_master Returns a number that represents a certain amount of lag behind a master db when a given storage is replicating. The number is database dependent, but starts at zero and increases with the amount of lag. Default in undef =cut sub lag_behind_master { return; } =head2 relname_to_table_alias =over 4 =item Arguments: $relname, $join_count =item Return Value: $alias =back L uses L names as table aliases in queries. This hook is to allow specific L drivers to change the way these aliases are named. The default behavior is C<< "$relname_$join_count" if $join_count > 1 >>, otherwise C<"$relname">. =cut sub relname_to_table_alias { my ($self, $relname, $join_count) = @_; my $alias = ($join_count && $join_count > 1 ? join('_', $relname, $join_count) : $relname); return $alias; } # The size in bytes to use for DBI's ->bind_param_inout, this is the generic # version and it may be necessary to amend or override it for a specific storage # if such binds are necessary. sub _max_column_bytesize { my ($self, $attr) = @_; my $max_size; if ($attr->{sqlt_datatype}) { my $data_type = lc($attr->{sqlt_datatype}); if ($attr->{sqlt_size}) { # String/sized-binary types if ($data_type =~ /^(?: l? (?:var)? char(?:acter)? (?:\s*varying)? | (?:var)? binary (?:\s*varying)? | raw )\b/x ) { $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 ) { $max_size = $attr->{sqlt_size} * 4; } } if (!$max_size and !$self->_is_lob_type($data_type)) { $max_size = 100 # for all other (numeric?) datatypes } } $max_size || $self->_dbic_connect_attributes->{LongReadLen} || $self->_get_dbh->{LongReadLen} || 8000; } # Determine if a data_type is some type of BLOB sub _is_lob_type { my ($self, $data_type) = @_; $data_type && ($data_type =~ /lob|bfile|text|image|bytea|memo/i || $data_type =~ /^long(?:\s+(?:raw|bit\s*varying|varbit|binary |varchar|character\s*varying|nvarchar |national\s*character\s*varying))?\z/xi); } sub _is_binary_lob_type { my ($self, $data_type) = @_; $data_type && ($data_type =~ /blob|bfile|image|bytea/i || $data_type =~ /^long(?:\s+(?:raw|bit\s*varying|varbit|binary))?\z/xi); } sub _is_text_lob_type { my ($self, $data_type) = @_; $data_type && ($data_type =~ /^(?:clob|memo)\z/i || $data_type =~ /^long(?:\s+(?:varchar|character\s*varying|nvarchar |national\s*character\s*varying))\z/xi); } # Determine if a data_type is some type of a binary type sub _is_binary_type { my ($self, $data_type) = @_; $data_type && ($self->_is_binary_lob_type($data_type) || $data_type =~ /(?:var)?(?:binary|bit|graphic)(?:\s*varying)?/i); } 1; =head1 USAGE NOTES =head2 DBIx::Class and AutoCommit DBIx::Class can do some wonderful magic with handling exceptions, disconnections, and transactions when you use C<< AutoCommit => 1 >> (the default) combined with L 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 like to manage that manually. A lot of the magic protections offered by this module will go away. We can't protect you from exceptions due to database disconnects because we don't know anything about how to restart your transactions. You're on your own for handling all sorts of exceptional cases if you choose the C<< AutoCommit => 0 >> path, just as you would be with raw DBI. =head1 FURTHER QUESTIONS? Check the list of L. =head1 COPYRIGHT AND LICENSE This module is free software L by the L. You can redistribute it and/or modify it under the same terms as the L.