use Scalar::Util 'reftype';
use Hash::Merge;
use List::Util qw/min max reduce/;
+use Context::Preserve 'preserve_context';
use Try::Tiny;
-use namespace::clean;
use namespace::clean -except => 'meta';
+=encoding utf8
+
=head1 NAME
DBIx::Class::Storage::DBI::Replicated - BETA Replicated database support
that the Pool object should get.
my $schema = Schema::Class->clone;
- $schema->storage_type( ['::DBI::Replicated', {balancer=>'::Random'}] );
+ $schema->storage_type(['::DBI::Replicated', { balancer_type => '::Random' }]);
$schema->connection(...);
Next, you need to add in the Replicants. Basically this is an array of
You can force a given query to use a particular storage using the search
attribute 'force_pool'. For example:
- my $RS = $schema->resultset('Source')->search(undef, {force_pool=>'master'});
+ my $rs = $schema->resultset('Source')->search(undef, {force_pool=>'master'});
-Now $RS will force everything (both reads and writes) to use whatever was setup
+Now $rs will force everything (both reads and writes) to use whatever was setup
as the master storage. 'master' is hardcoded to always point to the Master,
but you can also use any Replicant name. Please see:
L<DBIx::Class::Storage::DBI::Replicated::Pool> and the replicants attribute for more.
in a transaction when you are reading and writing to the same tables at the
same time, since your replicants will often lag a bit behind the master.
-See L<DBIx::Class::Storage::DBI::Replicated::Instructions> for more help and
-walkthroughs.
+If you have a multi-statement read only transaction you can force it to select
+a random server in the pool by:
+
+ my $rs = $schema->resultset('Source')->search( undef,
+ { force_pool => $db->storage->read_handler->next_storage }
+ );
=head1 DESCRIPTION
txn_commit
txn_rollback
txn_scope_guard
- sth
+ _exec_txn_rollback
+ _exec_txn_begin
+ _exec_txn_commit
deploy
with_deferred_fk_checks
dbh_do
_prep_for_execute
is_datatype_numeric
_count_select
- _subq_update_delete
svp_rollback
svp_begin
svp_release
relname_to_table_alias
_dbh_last_insert_id
- _fix_bind_params
_default_dbi_connect_attributes
_dbi_connect_info
_dbic_connect_attributes
auto_savepoint
+ _query_start
_query_end
+ _format_for_trace
+ _dbi_attrs_for_bind
bind_attribute_by_data_type
transaction_depth
_dbh
_select_args
- _dbh_execute_array
+ _dbh_execute_for_fetch
_sql_maker
- _query_start
- _per_row_update_delete
- _dbh_begin_work
_dbh_execute_inserts_with_no_binds
_select_args_to_query
+ _gen_sql_bind
_svp_generate_name
- _multipk_update_delete
- source_bind_attributes
_normalize_connect_info
_parse_connect_do
- _dbh_commit
- _execute_array
savepoints
_sql_maker_opts
_conn_pid
_native_data_type
_get_dbh
sql_maker_class
- _dbh_rollback
- _adjust_select_args_for_complex_prefetch
- _resolve_ident_sources
- _resolve_column_info
- _prune_unused_joins
- _strip_cond_qualifiers
- _strip_cond_qualifiers_from_array
- _resolve_aliastypes_from_select_args
_execute
_do_query
- _dbh_sth
_dbh_execute
- /],
+ /, Class::MOP::Class->initialize('DBIx::Class::Storage::DBIHacks')->get_method_list ],
reader => [qw/
select
select_single
_dbh_details
_dbh_get_info
+ _determine_connector_driver
+ _extract_driver_from_connect_info
+ _describe_connection
+ _warn_undetermined_driver
+
sql_limit_dialect
sql_quote_char
sql_name_sep
- _inner_join_to_node
- _group_over_selection
- _extract_order_criteria
-
_prefetch_autovalues
+ _perform_autoinc_retrieval
+ _autoinc_supplied_for_op
+
+ _resolve_bindattrs
_max_column_bytesize
_is_lob_type
_is_binary_lob_type
+ _is_binary_type
_is_text_lob_type
+
+ _prepare_sth
+ _bind_sth_params
/,(
# the capability framework
# not sure if CMOP->initialize does evil things to DBIC::S::DBI, fix if a problem
for my $method (@{$method_dispatch->{unimplemented}}) {
__PACKAGE__->meta->add_method($method, sub {
my $self = shift;
- $self->throw_exception("$method must not be called on ".(blessed $self).' objects');
+ $self->throw_exception("$method() must not be called on ".(blessed $self).' objects');
});
}
around connect_info => sub {
my ($next, $self, $info, @extra) = @_;
+ $self->throw_exception(
+ 'connect_info can not be retrieved from a replicated storage - '
+ . 'accessor must be called on a specific pool instance'
+ ) unless defined $info;
+
my $merge = Hash::Merge->new('LEFT_PRECEDENT');
my %opts;
$self->_master_connect_info_opts(\%opts);
- my @res;
- if (wantarray) {
- @res = $self->$next($info, @extra);
- } else {
- $res[0] = $self->$next($info, @extra);
- }
-
- # Make sure master is blessed into the correct class and apply role to it.
- my $master = $self->master;
- $master->_determine_driver;
- Moose::Meta::Class->initialize(ref $master);
-
- DBIx::Class::Storage::DBI::Replicated::WithDSN->meta->apply($master);
+ return preserve_context {
+ $self->$next($info, @extra);
+ } after => sub {
+ # Make sure master is blessed into the correct class and apply role to it.
+ my $master = $self->master;
+ $master->_determine_driver;
+ Moose::Meta::Class->initialize(ref $master);
- # link pool back to master
- $self->pool->master($master);
+ DBIx::Class::Storage::DBI::Replicated::WithDSN->meta->apply($master);
- wantarray ? @res : $res[0];
+ # link pool back to master
+ $self->pool->master($master);
+ };
};
=head1 METHODS
=head2 all_storages
-Returns an array of of all the connected storage backends. The first element
-in the returned array is the master, and the remainings are each of the
+Returns an array of all the connected storage backends. The first element
+in the returned array is the master, and the rest are each of the
replicants.
=cut
=cut
sub execute_reliably {
- my ($self, $coderef, @args) = @_;
+ my $self = shift;
+ my $coderef = shift;
unless( ref $coderef eq 'CODE') {
$self->throw_exception('Second argument must be a coderef');
}
- ##Get copy of master storage
- my $master = $self->master;
+ ## replace the current read handler for the remainder of the scope
+ local $self->{read_handler} = $self->master;
- ##Get whatever the current read hander is
- my $current = $self->read_handler;
-
- ##Set the read handler to master
- $self->read_handler($master);
-
- ## do whatever the caller needs
- my @result;
- my $want_array = wantarray;
-
- try {
- if($want_array) {
- @result = $coderef->(@args);
- } elsif(defined $want_array) {
- ($result[0]) = ($coderef->(@args));
- } else {
- $coderef->(@args);
- }
+ my $args = \@_;
+ return try {
+ $coderef->(@$args);
} catch {
$self->throw_exception("coderef returned an error: $_");
- } finally {
- ##Reset to the original state
- $self->read_handler($current);
};
-
- return wantarray ? @result : $result[0];
}
=head2 set_reliable_storage
Due to the fact that replicants can lag behind a master, you must take care to
make sure you use one of the methods to force read queries to a master should
you need realtime data integrity. For example, if you insert a row, and then
-immediately re-read it from the database (say, by doing $row->discard_changes)
+immediately re-read it from the database (say, by doing $result->discard_changes)
or you insert a row and then immediately build a query that expects that row
to be an item, you should force the master to handle reads. Otherwise, due to
the lag, there is no certainty your data will be in the expected state.
Otherwise, you can force a single query to use the master with the 'force_pool'
attribute:
- my $row = $resultset->search(undef, {force_pool=>'master'})->find($pk);
+ my $result = $resultset->search(undef, {force_pool=>'master'})->find($pk);
-This attribute will safely be ignore by non replicated storages, so you can use
+This attribute will safely be ignored by non replicated storages, so you can use
the same code for both types of systems.
Lastly, you can use the L</execute_reliably> method, which works very much like
Based on code originated by:
- Norbert Csongrádi <bert@cpan.org>
- Peter Siklósi <einon@einon.hu>
+ Norbert Csongrádi <bert@cpan.org>
+ Peter Siklósi <einon@einon.hu>
=head1 LICENSE