package DBIx::Class::Storage::DBI::Replicated;
-use strict;
-use warnings;
+BEGIN {
+ use Carp::Clan qw/^DBIx::Class/;
+
+ ## Modules required for Replication support not required for general DBIC
+ ## use, so we explicitly test for these.
+
+ my %replication_required = (
+ Moose => '0.77',
+ MooseX::AttributeHelpers => '0.12',
+ MooseX::Types => '0.10',
+ namespace::clean => '0.11',
+ );
+
+ my @didnt_load;
+
+ for my $module (keys %replication_required) {
+ eval "use $module $replication_required{$module}";
+ push @didnt_load, "$module $replication_required{$module}"
+ if $@;
+ }
+
+ croak("@{[ join ', ', @didnt_load ]} are missing and are required for Replication")
+ if @didnt_load;
+}
+use Moose;
use DBIx::Class::Storage::DBI;
-use DBD::Multi;
+use DBIx::Class::Storage::DBI::Replicated::Pool;
+use DBIx::Class::Storage::DBI::Replicated::Balancer;
+use DBIx::Class::Storage::DBI::Replicated::Types 'BalancerClassNamePart';
+use MooseX::Types::Moose qw/ClassName HashRef Object/;
+use Scalar::Util 'reftype';
+use Carp::Clan qw/^DBIx::Class/;
-use base qw/Class::Accessor::Fast/;
-
-__PACKAGE__->mk_accessors( qw/read_source write_source/ );
+use namespace::clean -except => 'meta';
=head1 NAME
-DBIx::Class::Storage::DBI::Replicated - ALPHA Replicated database support
+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 and update it's connection information to contain a master DSN and
-an array of slaves.
-
- ## Change storage_type in your schema class
- $schema->storage_type( '::DBI::Replicated' );
-
- ## Set your connection.
- $schema->connect(
- $dsn, $user, $password, {
- AutoCommit => 1,
- ## Other standard DBI connection or DBD custom attributes added as
- ## usual. Additionally, we have two custom attributes for defining
- ## slave information and controlling how the underlying DBD::Multi
- slaves_connect_info => [
- ## Define each slave like a 'normal' DBI connection, but you add
- ## in a DBD::Multi custom attribute to define how the slave is
- ## prioritized. Please see DBD::Multi for more.
- [$slave1dsn, $user, $password, {%slave1opts, priority=>10}],
- [$slave2dsn, $user, $password, {%slave2opts, priority=>10}],
- [$slave3dsn, $user, $password, {%slave3opts, priority=>20}],
- ## add in a preexisting database handle
- [$dbh, '','', {priority=>30}],
- ## DBD::Multi will call this coderef for connects
- [sub { DBI->connect(< DSN info >) }, '', '', {priority=>40}],
- ## If the last item is hashref, we use that for DBD::Multi's
- ## configuration information. Again, see DBD::Multi for more.
- {timeout=>25, failed_max=>2},
- ],
- },
- );
-
- ## Now, just use the schema as normal
- $schema->resultset('Table')->find(< unique >); ## Reads will use slaves
- $schema->resultset('Table')->create(\%info); ## Writes will use master
+storage type, add some replicated (readonly) databases, and perform reporting
+tasks.
+ ## Change storage_type in your schema class
+ $schema->storage_type( ['::DBI::Replicated', {balancer=>'::Random'}] );
+
+ ## Add some slaves. Basically this is an array of arrayrefs, where each
+ ## arrayref is database connect information
+
+ $schema->storage->connect_replicants(
+ [$dsn1, $user, $pass, \%opts],
+ [$dsn2, $user, $pass, \%opts],
+ [$dsn3, $user, $pass, \%opts],
+ );
+
+ ## Now, just use the $schema as normal
+ $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::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.
+
=head1 DESCRIPTION
-Warning: This class is marked ALPHA. We are using this in development and have
-some basic test coverage but the code hasn't yet been stressed by a variety
-of databases. Individual DB's may have quirks we are not aware of. Please
-use this in development and pass along your experiences/bug fixes.
+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 DB's 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.
-For every slave database you can define a priority value, which controls data
-source usage pattern. It uses L<DBD::Multi>, so first the lower priority data
-sources used (if they have the same priority, the are used randomized), than
-if all low priority data sources fail, higher ones tried in order.
+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) occuring to a user
+selected algorithm. The default algorithm is random weighted.
+
+=head1 NOTES
-=head1 CONFIGURATION
+The consistancy betweeen master and replicants is database specific. The Pool
+gives you a method to validate it's 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.
-Please see L<DBD::Multi> for most configuration information.
+=head1 REQUIREMENTS
+
+Replicated Storage has additional requirements not currently part of L<DBIx::Class>
+
+ Moose => 0.77
+ MooseX::AttributeHelpers => 0.12
+ MooseX::Types => 0.10
+ namespace::clean => 0.11
+
+You will need to install these modules manually via CPAN or make them part of the
+Makefile for your distribution.
+
+=head1 ATTRIBUTES
+
+This class defines the following attributes.
+
+=head2 schema
+
+The underlying L<DBIx::Class::Schema> object this storage is attaching
=cut
-sub new {
- my $proto = shift;
- my $class = ref( $proto ) || $proto;
- my $self = {};
+has 'schema' => (
+ is=>'rw',
+ isa=>'DBIx::Class::Schema',
+ weak_ref=>1,
+ required=>1,
+);
- bless( $self, $class );
+=head2 pool_type
- $self->write_source( DBIx::Class::Storage::DBI->new );
- $self->read_source( DBIx::Class::Storage::DBI->new );
+Contains the classname which will instantiate the L</pool> object. Defaults
+to: L<DBIx::Class::Storage::DBI::Replicated::Pool>.
- return $self;
-}
+=cut
-sub all_sources {
- my $self = shift;
+has 'pool_type' => (
+ is=>'ro',
+ isa=>ClassName,
+ required=>1,
+ default=>'DBIx::Class::Storage::DBI::Replicated::Pool',
+ handles=>{
+ 'create_pool' => 'new',
+ },
+);
- my @sources = ($self->read_source, $self->write_source);
+=head2 pool_args
- return wantarray ? @sources : \@sources;
-}
+Contains a hashref of initialized information to pass to the Balancer object.
+See L<DBIx::Class::Storage::Replicated::Pool> for available arguments.
-sub _connect_info {
- my $self = shift;
- my $master = $self->write_source->_connect_info;
- $master->[-1]->{slave_connect_info} = $self->read_source->_connect_info;
- return $master;
-}
+=cut
+
+has 'pool_args' => (
+ is=>'ro',
+ isa=>HashRef,
+ lazy=>1,
+ required=>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=>'ro',
+ 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::Replicated::Balancer> for available arguments.
+
+=cut
+
+has 'balancer_args' => (
+ is=>'ro',
+ isa=>HashRef,
+ lazy=>1,
+ required=>1,
+ default=>sub { {} },
+);
+
+=head2 pool
+
+Is a <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 <DBIx::Class::Storage::DBI::Replicated::Balancer> or derived class. This
+is a class that takes a pool (<DBIx::Class::Storage::DBI::Replicated::Pool>)
+
+=cut
+
+has 'balancer' => (
+ is=>'ro',
+ 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=>'DBIx::Class::Storage::DBI',
+ 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.
+
+=head2 read_handler
+
+Defines an object that implements the read side of L<BIx::Class::Storage::DBI>.
+
+=cut
-sub connect_info {
- my ($self, $source_info) = @_;
+has 'read_handler' => (
+ is=>'rw',
+ isa=>Object,
+ lazy_build=>1,
+ handles=>[qw/
+ select
+ select_single
+ columns_info_for
+ /],
+);
- ## if there is no $source_info, treat this sub like an accessor
- return $self->_connect_info
- if !$source_info;
+=head2 write_handler
+
+Defines an object that implements the write side of L<BIx::Class::Storage::DBI>.
+
+=cut
+
+has 'write_handler' => (
+ is=>'ro',
+ isa=>Object,
+ lazy_build=>1,
+ lazy_build=>1,
+ handles=>[qw/
+ on_connect_do
+ on_disconnect_do
+ connect_info
+ throw_exception
+ sql_maker
+ sqlt_type
+ create_ddl_dir
+ deployment_statements
+ datetime_parser
+ datetime_parser_type
+ last_insert_id
+ insert
+ insert_bulk
+ update
+ delete
+ dbh
+ txn_begin
+ txn_do
+ txn_commit
+ txn_rollback
+ txn_scope_guard
+ sth
+ deploy
+ with_deferred_fk_checks
+
+ reload_row
+ _prep_for_execute
- ## Alright, let's conect the master
- $self->write_source->connect_info($source_info);
+ /],
+);
+
+has _master_connect_info_opts =>
+ (is => 'rw', isa => HashRef, default => sub { {} });
+
+=head2 around: connect_info
+
+Preserve master's C<connect_info> options (for merging with replicants.)
+
+=cut
+
+around connect_info => sub {
+ my ($next, $self, $info, @extra) = @_;
+
+ my %opts;
+ for my $arg (@$info) {
+ next unless (reftype($arg)||'') eq 'HASH';
+ %opts = (%opts, %$arg);
+ }
+
+ delete $opts{dsn};
+
+ $self->_master_connect_info_opts(\%opts);
+
+ $self->$next($info, @extra);
+};
+
+=head1 METHODS
+
+This class defines the following methods.
+
+=head2 BUILDARGS
+
+L<DBIx::Class::Schema> when instantiating it's storage passed itself as the
+first argument. So we need to massage the arguments a bit so that all the
+bits get put into the correct places.
+
+=cut
+
+sub BUILDARGS {
+ my ($class, $schema, $storage_type_args, @args) = @_;
- ## Now, build and then connect the Slaves
- my @slaves_connect_info = @{$source_info->[-1]->{slaves_connect_info}};
- my $dbd_multi_config = ref $slaves_connect_info[-1] eq 'HASH'
- ? pop @slaves_connect_info : {};
-
- ## We need to do this since SQL::Abstract::Limit can't guess what DBD::Multi is
- $dbd_multi_config->{limit_dialect} = $self->write_source->sql_maker->limit_dialect
- unless defined $dbd_multi_config->{limit_dialect};
-
- @slaves_connect_info = map {
- ## if the first element in the arrayhash is a ref, make that the value
- my $db = ref $_->[0] ? $_->[0] : $_;
- my $priority = $_->[-1]->{priority} || 10; ## default priority is 10
- $priority => $db;
- } @slaves_connect_info;
-
- $self->read_source->connect_info([
- 'dbi:Multi:', undef, undef, {
- dsns => [@slaves_connect_info],
- %$dbd_multi_config,
- },
- ]);
-
- ## Return the formated connection information
- return $self->_connect_info;
+ return {
+ schema=>$schema,
+ %$storage_type_args,
+ @args
+ }
}
-sub select {
- shift->read_source->select( @_ );
-}
-sub select_single {
- shift->read_source->select_single( @_ );
-}
-sub throw_exception {
- shift->read_source->throw_exception( @_ );
-}
-sub sql_maker {
- shift->read_source->sql_maker( @_ );
-}
-sub columns_info_for {
- shift->read_source->columns_info_for( @_ );
-}
-sub sqlt_type {
- shift->read_source->sqlt_type( @_ );
-}
-sub create_ddl_dir {
- shift->read_source->create_ddl_dir( @_ );
-}
-sub deployment_statements {
- shift->read_source->deployment_statements( @_ );
-}
-sub datetime_parser {
- shift->read_source->datetime_parser( @_ );
-}
-sub datetime_parser_type {
- shift->read_source->datetime_parser_type( @_ );
-}
-sub build_datetime_parser {
- shift->read_source->build_datetime_parser( @_ );
-}
+=head2 _build_master
-sub limit_dialect { $_->limit_dialect( @_ ) for( shift->all_sources ) }
-sub quote_char { $_->quote_char( @_ ) for( shift->all_sources ) }
-sub name_sep { $_->quote_char( @_ ) for( shift->all_sources ) }
-sub disconnect { $_->disconnect( @_ ) for( shift->all_sources ) }
-sub set_schema { $_->set_schema( @_ ) for( shift->all_sources ) }
+Lazy builder for the L</master> attribute.
-sub DESTROY {
- my $self = shift;
+=cut
- undef $self->{write_source};
- undef $self->{read_sources};
+sub _build_master {
+ my $self = shift @_;
+ DBIx::Class::Storage::DBI->new($self->schema);
}
-sub last_insert_id {
- shift->write_source->last_insert_id( @_ );
-}
-sub insert {
- shift->write_source->insert( @_ );
+=head2 _build_pool
+
+Lazy builder for the L</pool> attribute.
+
+=cut
+
+sub _build_pool {
+ my $self = shift @_;
+ $self->create_pool(%{$self->pool_args});
}
-sub update {
- shift->write_source->update( @_ );
+
+=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},
+ );
}
-sub update_all {
- shift->write_source->update_all( @_ );
+
+=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;
}
-sub delete {
- shift->write_source->delete( @_ );
+
+=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;
}
-sub delete_all {
- shift->write_source->delete_all( @_ );
+
+=head2 around: connect_replicants
+
+All calls to connect_replicants needs to have an existing $schema tacked onto
+top of the args, since L<DBIx::Storage::DBI> needs it, and any C<connect_info>
+options merged with the master, with replicant opts having higher priority.
+
+=cut
+
+around connect_replicants => sub {
+ my ($next, $self, @args) = @_;
+
+ for my $r (@args) {
+ $r = [ $r ] unless reftype $r eq 'ARRAY';
+
+ croak "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 %opts = map %$_, @$r[$i .. $#{$r}];
+ splice @$r, $i+1, ($#{$r} - $i), ();
+
+# merge with master
+ %opts = (%{ $self->_master_connect_info_opts }, %opts);
+
+# update
+ $r->[$i] = \%opts;
+ }
+
+ $self->$next($self->schema, @args);
+};
+
+=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
+replicants.
+
+=cut
+
+sub all_storages {
+ my $self = shift @_;
+ return grep {defined $_ && blessed $_} (
+ $self->master,
+ values %{ $self->replicants },
+ );
}
-sub create {
- shift->write_source->create( @_ );
+
+=head2 execute_reliably ($coderef, ?@args)
+
+Given a coderef, saves the current state of the L</read_handler>, forces it to
+use reliable storage (ie 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, $coderef, @args) = @_;
+
+ unless( ref $coderef eq 'CODE') {
+ $self->throw_exception('Second argument must be a coderef');
+ }
+
+ ##Get copy of master storage
+ my $master = $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 $want_array = wantarray;
+
+ eval {
+ if($want_array) {
+ @result = $coderef->(@args);
+ } elsif(defined $want_array) {
+ ($result[0]) = ($coderef->(@args));
+ } else {
+ $coderef->(@args);
+ }
+ };
+
+ ##Reset to the original state
+ $self->read_handler($current);
+
+ ##Exception testing has to come last, otherwise you might leave the
+ ##read_handler set to master.
+
+ if($@) {
+ $self->throw_exception("coderef returned an error: $@");
+ } else {
+ return $want_array ? @result : $result[0];
+ }
}
-sub find_or_create {
- shift->write_source->find_or_create( @_ );
+
+=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);
}
-sub update_or_create {
- shift->write_source->update_or_create( @_ );
+
+=head2 set_balanced_storage
+
+Sets the current $schema to be use the </balancer> for all reads, while all
+writea are sent to the master only
+
+=cut
+
+sub set_balanced_storage {
+ my $self = shift @_;
+ my $schema = $self->schema;
+ my $write_handler = $self->schema->storage->balancer;
+
+ $schema->storage->read_handler($write_handler);
}
+
+=head2 around: txn_do ($coderef)
+
+Overload to the txn_do method, which is delegated to whatever the
+L<write_handler> is set to. We overload this in order to wrap in inside a
+L</execute_reliably> method.
+
+=cut
+
+around 'txn_do' => sub {
+ my($txn_do, $self, $coderef, @args) = @_;
+ $self->execute_reliably(sub {$self->$txn_do($coderef, @args)});
+};
+
+=head2 connected
+
+Check that the master and at least one of the replicants is connected.
+
+=cut
+
sub connected {
- shift->write_source->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 {
- shift->write_source->ensure_connected( @_ );
+ my $self = shift @_;
+ foreach my $source ($self->all_storages) {
+ $source->ensure_connected(@_);
+ }
}
-sub dbh {
- shift->write_source->dbh( @_ );
+
+=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->quote_char;
}
-sub txn_do {
- shift->write_source->txn_do( @_ );
+
+=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;
}
-sub txn_commit {
- shift->write_source->txn_commit( @_ );
+
+=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;
}
-sub txn_rollback {
- shift->write_source->txn_rollback( @_ );
+
+=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(@_);
+ }
}
-sub sth {
- shift->write_source->sth( @_ );
+
+=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;
}
-sub deploy {
- shift->write_source->deploy( @_ );
+
+=head2 debugobj
+
+set a debug object across all storages
+
+=cut
+
+sub debugobj {
+ my $self = shift @_;
+ if(@_) {
+ foreach my $source ($self->all_storages) {
+ $source->debugobj(@_);
+ }
+ }
+ return $self->master->debugobj;
}
-sub _prep_for_execute {
- shift->write_source->_prep_for_execute(@_);
+
+=head2 debugfh
+
+set a debugfh object across all storages
+
+=cut
+
+sub debugfh {
+ my $self = shift @_;
+ if(@_) {
+ foreach my $source ($self->all_storages) {
+ $source->debugfh(@_);
+ }
+ }
+ return $self->master->debugfh;
}
-sub debugobj {
- shift->write_source->debugobj(@_);
+=head2 debugcb
+
+set a debug callback across all storages
+
+=cut
+
+sub debugcb {
+ my $self = shift @_;
+ if(@_) {
+ foreach my $source ($self->all_storages) {
+ $source->debugcb(@_);
+ }
+ }
+ return $self->master->debugcb;
}
-sub debug {
- shift->write_source->debug(@_);
+
+=head2 disconnect
+
+disconnect everything
+
+=cut
+
+sub disconnect {
+ my $self = shift @_;
+ foreach my $source ($self->all_storages) {
+ $source->disconnect(@_);
+ }
}
-sub debugfh { shift->_not_supported( 'debugfh' ) };
-sub debugcb { shift->_not_supported( 'debugcb' ) };
+=head2 cursor_class
-sub _not_supported {
- my( $self, $method ) = @_;
+set cursor class on all storages, or return master's
+
+=cut
- die "This Storage does not support $method method.";
+sub cursor_class {
+ my ($self, $cursor_class) = @_;
+
+ if ($cursor_class) {
+ $_->cursor_class($cursor_class) for $self->all_storages;
+ }
+ $self->master->cursor_class;
}
+
+=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 $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.
-=head1 SEE ALSO
+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.
-L<DBI::Class::Storage::DBI>, L<DBD::Multi>, L<DBI>
+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);
+
+This attribute will safely be ignore 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 AUTHOR
-Norbert Csongrádi <bert@cpan.org>
+ John Napiorkowski <john.napiorkowski@takkle.com>
-Peter Siklósi <einon@einon.hu>
+Based on code originated by:
-John Napiorkowski <john.napiorkowski@takkle.com>
+ Norbert Csongrádi <bert@cpan.org>
+ Peter Siklósi <einon@einon.hu>
=head1 LICENSE
=cut
+__PACKAGE__->meta->make_immutable;
+
1;
projects / dbsrgits/DBIx-Class.git / blobdiff