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package DBIx::Class::Storage::DBI::Replicated; BEGIN { use DBIx::Class; die('The following modules are required for Replication ' . DBIx::Class::Optional::Dependencies->req_missing_for ('replicated') . "\n" ) unless DBIx::Class::Optional::Dependencies->req_ok_for ('replicated'); } use Moose; use DBIx::Class::Storage::DBI; use DBIx::Class::Storage::DBI::Replicated::Pool; use DBIx::Class::Storage::DBI::Replicated::Balancer; use DBIx::Class::Storage::DBI::Replicated::Types qw/BalancerClassNamePart DBICSchema DBICStorageDBI/; use MooseX::Types::Moose qw/ClassName HashRef Object/; 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 -except => 'meta'; =head1 NAME DBIx::Class::Storage::DBI::Replicated - BETA Replicated database support =head1 SYNOPSIS The Following example shows how to change an existing $schema to a replicated storage type, add some replicated (read-only) databases, and perform reporting tasks. You should set the 'storage_type attribute to a replicated type. You should also define your arguments, such as which balancer you want and any arguments that the Pool object should get. my $schema = Schema::Class->clone; $schema->storage_type(['::DBI::Replicated', { balancer_type => '::Random' }]); $schema->connection(...); Next, you need to add in the Replicants. Basically this is an array of arrayrefs, where each arrayref is database connect information. Think of these arguments as what you'd pass to the 'normal' $schema->connect method. $schema->storage->connect_replicants( [$dsn1, $user, $pass, \%opts], [$dsn2, $user, $pass, \%opts], [$dsn3, $user, $pass, \%opts], ); Now, just use the $schema as you normally would. Automatically all reads will be delegated to the replicants, while writes to the master. $schema->resultset('Source')->search({name=>'etc'}); 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'}); 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. Also see transactions and L</execute_reliably> for alternative ways to force read traffic to the master. In general, you should wrap your statements 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. 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 Warning: This class is marked BETA. This has been running a production website using MySQL native replication as its backend and we have some decent test coverage but the code hasn't yet been stressed by a variety of databases. Individual DBs may have quirks we are not aware of. Please use this in first development and pass along your experiences/bug fixes. This class implements replicated data store for DBI. Currently you can define one master and numerous slave database connections. All write-type queries (INSERT, UPDATE, DELETE and even LAST_INSERT_ID) are routed to master database, all read-type queries (SELECTs) go to the slave database. Basically, any method request that L<DBIx::Class::Storage::DBI> would normally handle gets delegated to one of the two attributes: L</read_handler> or to L</write_handler>. Additionally, some methods need to be distributed to all existing storages. This way our storage class is a drop in replacement for L<DBIx::Class::Storage::DBI>. Read traffic is spread across the replicants (slaves) occurring to a user selected algorithm. The default algorithm is random weighted. =head1 NOTES The consistency between master and replicants is database specific. The Pool gives you a method to validate its replicants, removing and replacing them when they fail/pass predefined criteria. Please make careful use of the ways to force a query to run against Master when needed. =head1 REQUIREMENTS Replicated Storage has additional requirements not currently part of L<DBIx::Class>. See L<DBIx::Class::Optional::Dependencies> for more details. =head1 ATTRIBUTES This class defines the following attributes. =head2 schema The underlying L<DBIx::Class::Schema> object this storage is attaching =cut has 'schema' => ( is=>'rw', isa=>DBICSchema, weak_ref=>1, required=>1, ); =head2 pool_type Contains the classname which will instantiate the L</pool> object. Defaults to: L<DBIx::Class::Storage::DBI::Replicated::Pool>. =cut has 'pool_type' => ( is=>'rw', isa=>ClassName, default=>'DBIx::Class::Storage::DBI::Replicated::Pool', handles=>{ 'create_pool' => 'new', }, ); =head2 pool_args Contains a hashref of initialized information to pass to the Balancer object. See L<DBIx::Class::Storage::DBI::Replicated::Pool> for available arguments. =cut has 'pool_args' => ( is=>'rw', isa=>HashRef, lazy=>1, default=>sub { {} }, ); =head2 balancer_type The replication pool requires a balance class to provider the methods for choose how to spread the query load across each replicant in the pool. =cut has 'balancer_type' => ( is=>'rw', isa=>BalancerClassNamePart, coerce=>1, required=>1, default=> 'DBIx::Class::Storage::DBI::Replicated::Balancer::First', handles=>{ 'create_balancer' => 'new', }, ); =head2 balancer_args Contains a hashref of initialized information to pass to the Balancer object. See L<DBIx::Class::Storage::DBI::Replicated::Balancer> for available arguments. =cut has 'balancer_args' => ( is=>'rw', isa=>HashRef, lazy=>1, required=>1, default=>sub { {} }, ); =head2 pool Is a L<DBIx::Class::Storage::DBI::Replicated::Pool> or derived class. This is a container class for one or more replicated databases. =cut has 'pool' => ( is=>'ro', isa=>'DBIx::Class::Storage::DBI::Replicated::Pool', lazy_build=>1, handles=>[qw/ connect_replicants replicants has_replicants /], ); =head2 balancer Is a L<DBIx::Class::Storage::DBI::Replicated::Balancer> or derived class. This is a class that takes a pool (L<DBIx::Class::Storage::DBI::Replicated::Pool>) =cut has 'balancer' => ( is=>'rw', isa=>'DBIx::Class::Storage::DBI::Replicated::Balancer', lazy_build=>1, handles=>[qw/auto_validate_every/], ); =head2 master The master defines the canonical state for a pool of connected databases. All the replicants are expected to match this databases state. Thus, in a classic Master / Slaves distributed system, all the slaves are expected to replicate the Master's state as quick as possible. This is the only database in the pool of databases that is allowed to handle write traffic. =cut has 'master' => ( is=> 'ro', isa=>DBICStorageDBI, lazy_build=>1, ); =head1 ATTRIBUTES IMPLEMENTING THE DBIx::Storage::DBI INTERFACE The following methods are delegated all the methods required for the L<DBIx::Class::Storage::DBI> interface. =cut my $method_dispatch = { writer => [qw/ on_connect_do on_disconnect_do on_connect_call on_disconnect_call connect_info _connect_info throw_exception sql_maker sqlt_type create_ddl_dir deployment_statements datetime_parser datetime_parser_type build_datetime_parser last_insert_id insert update delete dbh txn_begin txn_do txn_commit txn_rollback txn_scope_guard _exec_txn_rollback _exec_txn_begin _exec_txn_commit deploy with_deferred_fk_checks dbh_do _prep_for_execute is_datatype_numeric _count_select svp_rollback svp_begin svp_release relname_to_table_alias _dbh_last_insert_id _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_for_fetch _sql_maker _dbh_execute_inserts_with_no_binds _select_args_to_query _gen_sql_bind _svp_generate_name _normalize_connect_info _parse_connect_do savepoints _sql_maker_opts _use_multicolumn_in _conn_pid _dbh_autocommit _native_data_type _get_dbh sql_maker_class insert_bulk _insert_bulk _execute _do_query _dbh_execute /, Class::MOP::Class->initialize('DBIx::Class::Storage::DBIHacks')->get_method_list ], reader => [qw/ select select_single columns_info_for _dbh_columns_info_for _select /], unimplemented => [qw/ _arm_global_destructor _verify_pid get_use_dbms_capability set_use_dbms_capability get_dbms_capability set_dbms_capability _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 _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 grep { $_ =~ /^ _ (?: use | supports | determine_supports ) _ /x and $_ ne '_use_multicolumn_in' } ( Class::MOP::Class->initialize('DBIx::Class::Storage::DBI')->get_all_method_names ) )], }; if (DBIx::Class::_ENV_::DBICTEST) { my $seen; for my $type (keys %$method_dispatch) { for (@{$method_dispatch->{$type}}) { push @{$seen->{$_}}, $type; } } if (my @dupes = grep { @{$seen->{$_}} > 1 } keys %$seen) { die(join "\n", '', 'The following methods show up multiple times in ::Storage::DBI::Replicated handlers:', (map { "$_: " . (join ', ', @{$seen->{$_}}) } sort @dupes), '', ); } if (my @cant = grep { ! DBIx::Class::Storage::DBI->can($_) } keys %$seen) { die(join "\n", '', '::Storage::DBI::Replicated specifies handling of the following *NON EXISTING* ::Storage::DBI methods:', @cant, '', ); } } 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 $self).' objects'); }); } =head2 read_handler Defines an object that implements the read side of L<DBIx::Class::Storage::DBI>. =cut has 'read_handler' => ( is=>'rw', isa=>Object, lazy_build=>1, handles=>$method_dispatch->{reader}, ); =head2 write_handler Defines an object that implements the write side of L<DBIx::Class::Storage::DBI>, as well as methods that don't write or read that can be called on only one storage, methods that return a C<$dbh>, and any methods that don't make sense to run on a replicant. =cut has 'write_handler' => ( is=>'ro', isa=>Object, lazy_build=>1, handles=>$method_dispatch->{writer}, ); has _master_connect_info_opts => (is => 'rw', isa => HashRef, default => sub { {} }); =head2 around: connect_info Preserves master's C<connect_info> options (for merging with replicants.) Also sets any Replicated-related options from connect_info, such as C<pool_type>, C<pool_args>, C<balancer_type> and C<balancer_args>. =cut 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; for my $arg (@$info) { next unless (reftype($arg)||'') eq 'HASH'; %opts = %{ $merge->merge($arg, \%opts) }; } delete $opts{dsn}; if (@opts{qw/pool_type pool_args/}) { $self->pool_type(delete $opts{pool_type}) if $opts{pool_type}; $self->pool_args( $merge->merge((delete $opts{pool_args} || {}), $self->pool_args) ); ## Since we possibly changed the pool_args, we need to clear the current ## pool object so that next time it is used it will be rebuilt. $self->clear_pool; } if (@opts{qw/balancer_type balancer_args/}) { $self->balancer_type(delete $opts{balancer_type}) if $opts{balancer_type}; $self->balancer_args( $merge->merge((delete $opts{balancer_args} || {}), $self->balancer_args) ); $self->balancer($self->_build_balancer) if $self->balancer; } $self->_master_connect_info_opts(\%opts); 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 $master); DBIx::Class::Storage::DBI::Replicated::WithDSN->meta->apply($master); # link pool back to master $self->pool->master($master); }; }; =head1 METHODS This class defines the following methods. =head2 BUILDARGS L<DBIx::Class::Schema> when instantiating its storage passed itself as the first argument. So we need to massage the arguments a bit so that all the bits get put into the correct places. =cut sub BUILDARGS { my ($class, $schema, $storage_type_args, @args) = @_; return { schema=>$schema, %$storage_type_args, @args } } =head2 _build_master Lazy builder for the L</master> attribute. =cut sub _build_master { my $self = shift @_; my $master = DBIx::Class::Storage::DBI->new($self->schema); $master } =head2 _build_pool Lazy builder for the L</pool> attribute. =cut sub _build_pool { my $self = shift @_; $self->create_pool(%{$self->pool_args}); } =head2 _build_balancer Lazy builder for the L</balancer> attribute. This takes a Pool object so that the balancer knows which pool it's balancing. =cut sub _build_balancer { my $self = shift @_; $self->create_balancer( pool=>$self->pool, master=>$self->master, %{$self->balancer_args}, ); } =head2 _build_write_handler Lazy builder for the L</write_handler> attribute. The default is to set this to the L</master>. =cut sub _build_write_handler { return shift->master; } =head2 _build_read_handler Lazy builder for the L</read_handler> attribute. The default is to set this to the L</balancer>. =cut sub _build_read_handler { return shift->balancer; } =head2 around: connect_replicants All calls to connect_replicants needs to have an existing $schema tacked onto top of the args, since L<DBIx::Class::Storage::DBI> needs it, and any L<connect_info|DBIx::Class::Storage::DBI/connect_info> options merged with the master, with replicant opts having higher priority. =cut around connect_replicants => sub { my ($next, $self, @args) = @_; for my $r (@args) { $r = [ $r ] unless reftype $r eq 'ARRAY'; $self->throw_exception('coderef replicant connect_info not supported') if ref $r->[0] && reftype $r->[0] eq 'CODE'; # any connect_info options? my $i = 0; $i++ while $i < @$r && (reftype($r->[$i])||'') ne 'HASH'; # make one if none $r->[$i] = {} unless $r->[$i]; # merge if two hashes my @hashes = @$r[$i .. $#{$r}]; $self->throw_exception('invalid connect_info options') if (grep { reftype($_) eq 'HASH' } @hashes) != @hashes; $self->throw_exception('too many hashrefs in connect_info') if @hashes > 2; my $merge = Hash::Merge->new('LEFT_PRECEDENT'); my %opts = %{ $merge->merge(reverse @hashes) }; # delete them splice @$r, $i+1, ($#{$r} - $i), (); # make sure master/replicants opts don't clash my %master_opts = %{ $self->_master_connect_info_opts }; if (exists $opts{dbh_maker}) { delete @master_opts{qw/dsn user password/}; } delete $master_opts{dbh_maker}; # merge with master %opts = %{ $merge->merge(\%opts, \%master_opts) }; # update $r->[$i] = \%opts; } $self->$next($self->schema, @args); }; =head2 all_storages 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 sub all_storages { my $self = shift @_; return grep {defined $_ && blessed $_} ( $self->master, values %{ $self->replicants }, ); } =head2 execute_reliably ($coderef, ?@args) Given a coderef, saves the current state of the L</read_handler>, forces it to use reliable storage (e.g. sets it to the master), executes a coderef and then restores the original state. Example: my $reliably = sub { my $name = shift @_; $schema->resultset('User')->create({name=>$name}); my $user_rs = $schema->resultset('User')->find({name=>$name}); return $user_rs; }; my $user_rs = $schema->storage->execute_reliably($reliably, 'John'); Use this when you must be certain of your database state, such as when you just inserted something and need to get a resultset including it, etc. =cut sub execute_reliably { my $self = shift; my $coderef = shift; $self->throw_exception('Second argument must be a coderef') unless( ref $coderef eq 'CODE'); ## replace the current read handler for the remainder of the scope local $self->{read_handler} = $self->master; &$coderef; } =head2 set_reliable_storage Sets the current $schema to be 'reliable', that is all queries, both read and write are sent to the master =cut sub set_reliable_storage { my $self = shift @_; my $schema = $self->schema; my $write_handler = $self->schema->storage->write_handler; $schema->storage->read_handler($write_handler); } =head2 set_balanced_storage Sets the current $schema to be use the </balancer> for all reads, while all writes are sent to the master only =cut sub set_balanced_storage { my $self = shift @_; my $schema = $self->schema; my $balanced_handler = $self->schema->storage->balancer; $schema->storage->read_handler($balanced_handler); } =head2 connected Check that the master and at least one of the replicants is connected. =cut sub connected { my $self = shift @_; return $self->master->connected && $self->pool->connected_replicants; } =head2 ensure_connected Make sure all the storages are connected. =cut sub ensure_connected { my $self = shift @_; foreach my $source ($self->all_storages) { $source->ensure_connected(@_); } } =head2 limit_dialect Set the limit_dialect for all existing storages =cut sub limit_dialect { my $self = shift @_; foreach my $source ($self->all_storages) { $source->limit_dialect(@_); } return $self->master->limit_dialect; } =head2 quote_char Set the quote_char for all existing storages =cut sub quote_char { my $self = shift @_; foreach my $source ($self->all_storages) { $source->quote_char(@_); } return $self->master->quote_char; } =head2 name_sep Set the name_sep for all existing storages =cut sub name_sep { my $self = shift @_; foreach my $source ($self->all_storages) { $source->name_sep(@_); } return $self->master->name_sep; } =head2 set_schema Set the schema object for all existing storages =cut sub set_schema { my $self = shift @_; foreach my $source ($self->all_storages) { $source->set_schema(@_); } } =head2 debug set a debug flag across all storages =cut sub debug { my $self = shift @_; if(@_) { foreach my $source ($self->all_storages) { $source->debug(@_); } } return $self->master->debug; } =head2 debugobj set a debug object =cut sub debugobj { my $self = shift @_; return $self->master->debugobj(@_); } =head2 debugfh set a debugfh object =cut sub debugfh { my $self = shift @_; return $self->master->debugfh(@_); } =head2 debugcb set a debug callback =cut sub debugcb { my $self = shift @_; return $self->master->debugcb(@_); } =head2 disconnect disconnect everything =cut sub disconnect { my $self = shift @_; foreach my $source ($self->all_storages) { $source->disconnect(@_); } } =head2 cursor_class set cursor class on all storages, or return master's =cut sub cursor_class { my ($self, $cursor_class) = @_; if ($cursor_class) { $_->cursor_class($cursor_class) for $self->all_storages; } $self->master->cursor_class; } =head2 cursor set cursor class on all storages, or return master's, alias for L</cursor_class> above. =cut sub cursor { my ($self, $cursor_class) = @_; if ($cursor_class) { $_->cursor($cursor_class) for $self->all_storages; } $self->master->cursor; } =head2 unsafe sets the L<DBIx::Class::Storage::DBI/unsafe> option on all storages or returns master's current setting =cut sub unsafe { my $self = shift; if (@_) { $_->unsafe(@_) for $self->all_storages; } return $self->master->unsafe; } =head2 disable_sth_caching sets the L<DBIx::Class::Storage::DBI/disable_sth_caching> option on all storages or returns master's current setting =cut sub disable_sth_caching { my $self = shift; if (@_) { $_->disable_sth_caching(@_) for $self->all_storages; } return $self->master->disable_sth_caching; } =head2 lag_behind_master returns the highest Replicant L<DBIx::Class::Storage::DBI/lag_behind_master> setting =cut sub lag_behind_master { my $self = shift; return max map $_->lag_behind_master, $self->replicants; } =head2 is_replicating returns true if all replicants return true for L<DBIx::Class::Storage::DBI/is_replicating> =cut sub is_replicating { my $self = shift; return (grep $_->is_replicating, $self->replicants) == ($self->replicants); } =head2 connect_call_datetime_setup calls L<DBIx::Class::Storage::DBI/connect_call_datetime_setup> for all storages =cut sub connect_call_datetime_setup { my $self = shift; $_->connect_call_datetime_setup for $self->all_storages; } sub _populate_dbh { my $self = shift; $_->_populate_dbh for $self->all_storages; } sub _connect { my $self = shift; $_->_connect for $self->all_storages; } sub _rebless { my $self = shift; $_->_rebless for $self->all_storages; } sub _determine_driver { my $self = shift; $_->_determine_driver for $self->all_storages; } sub _driver_determined { my $self = shift; if (@_) { $_->_driver_determined(@_) for $self->all_storages; } return $self->master->_driver_determined; } sub _init { my $self = shift; $_->_init for $self->all_storages; } sub _run_connection_actions { my $self = shift; $_->_run_connection_actions for $self->all_storages; } sub _do_connection_actions { my $self = shift; if (@_) { $_->_do_connection_actions(@_) for $self->all_storages; } } sub connect_call_do_sql { my $self = shift; $_->connect_call_do_sql(@_) for $self->all_storages; } sub disconnect_call_do_sql { my $self = shift; $_->disconnect_call_do_sql(@_) for $self->all_storages; } sub _seems_connected { my $self = shift; return min map $_->_seems_connected, $self->all_storages; } sub _ping { my $self = shift; return min map $_->_ping, $self->all_storages; } # not using the normalized_version, because we want to preserve # version numbers much longer than the conventional xxx.yyyzzz my $numify_ver = sub { my $ver = shift; my @numparts = split /\D+/, $ver; my $format = '%d.' . (join '', ('%06d') x (@numparts - 1)); return sprintf $format, @numparts; }; sub _server_info { my $self = shift; if (not $self->_dbh_details->{info}) { $self->_dbh_details->{info} = ( reduce { $a->[0] < $b->[0] ? $a : $b } map [ $numify_ver->($_->{dbms_version}), $_ ], map $_->_server_info, $self->all_storages )->[1]; } return $self->next::method; } sub _get_server_version { my $self = shift; return $self->_server_info->{dbms_version}; } =head1 GOTCHAS 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 L<< $result->discard_changes|DBIx::Class::Row/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. For data integrity, all transactions automatically use the master storage for all read and write queries. Using a transaction is the preferred and recommended method to force the master to handle all read queries. Otherwise, you can force a single query to use the master with the 'force_pool' attribute: my $result = $resultset->search(undef, {force_pool=>'master'})->find($pk); 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 a transaction. For debugging, you can turn replication on/off with the methods L</set_reliable_storage> and L</set_balanced_storage>, however this operates at a global level and is not suitable if you have a shared Schema object being used by multiple processes, such as on a web application server. You can get around this limitation by using the Schema clone method. my $new_schema = $schema->clone; $new_schema->set_reliable_storage; ## $new_schema will use only the Master storage for all reads/writes while ## the $schema object will use replicated storage. =head1 FURTHER QUESTIONS? Check the list of L<additional DBIC resources|DBIx::Class/GETTING HELP/SUPPORT>. =head1 COPYRIGHT AND LICENSE This module is free software L<copyright|DBIx::Class/COPYRIGHT AND LICENSE> by the L<DBIx::Class (DBIC) authors|DBIx::Class/AUTHORS>. You can redistribute it and/or modify it under the same terms as the L<DBIx::Class library|DBIx::Class/COPYRIGHT AND LICENSE>. =cut __PACKAGE__->meta->make_immutable; 1;