NAME
Database::Async - provides a database abstraction layer for IO::Async
SYNOPSIS
# Just looking up one thing?
my ($id) = $db->query(
q{select id from some_table where name = ?},
bind => ['some name']
)->single
# This is an example, so we want the result immediately - in
# real async code, you'd rarely call Future->get, but would
# typically use `->then` or `->on_done` instead
->get;
# or, with Future::AsyncAwait, try:
my ($id) = await $db->query(
q{select id from some_table where name = ?},
bind => ['some name']
)->single;
# Simple query
$db->query(q{select id, some_data from some_table})
->rows_hashref
->each(sub {
printf "ID %d, data %s\n", $_->{id}, $_->{some_data};
})
# If you want to complete the full query, don't forget to call
# ->get or ->retain here!
->retain;
# Transactions
$db->transaction(sub {
my ($tx) = @_;
})->commit
# This returns a Future, so if you want to wait for it to complete,
# call `->get` (throws an exception if something goes wrong)
# or `->await` (just waits for it to succeed or fail, but ignores
# the result).
->get;
DESCRIPTION
Database support for IO::Async. This is the base API, see Database::Async::Engine and subclasses for specific database functionality.
This is an early preview release.
DBI provides a basic API for interacting with a database, but this is very low level and uses a synchronous design. See DBIx::Async if you're familiar with DBI and want an interface that follows it more closely.
Typically a database only allows a single query to run at a time. Other queries will be queued.
Set up a pool of connections to provide better parallelism:
my $dbh = Database::Async->new(
uri => 'postgres://write@maindb/dbname?sslmode=require',
pool => {
max => 4,
},
);
Queries and transactions will then automatically be distributed among these connections. However, note that:
all queries within a transaction will be made on the same connection
ordering guarantees are weaker: queries will be started in order on the next available connection
With a single connection, you could expect:
Future->needs_all(
$dbh->do(q{insert into x ...}),
$dbh->do(q{select from x ...})
);
to insert the rows first, then return them in the select
call. With a pool of connections, that's not guaranteed.
Pool configuration
The following parameters are currently accepted for defining the pool:
min
- minimum number of total connections to maintain, defaults to 0max
- maximum permitted active connections, default is 1ordering
- how to iterate through the available URIs, options includerandom
andserial
(default, round-robin behaviour).backoff
- algorithm for managing connection timeouts or failures. The default is an exponential backoff with 10ms initial delay, 30s maximum, resetting on successful connection.
See Database::Async::Pool for more details.
DBI
The interface is not the same as DBI, but here are some approximate equivalents for common patterns:
selectall_hashref
In DBI:
print $_->{id} . "\n" for
$dbh->selectall_hashref(
q{select * from something where id = ?},
undef,
$id
)->@*;
In Database::Async:
print $_->{id} . "\n" for
$db->query(
q{select * from something where id = ?},
bind => [
$id
])->rows_hashref
->as_arrayref
->@*
In DBI:
my $sth = $dbh->prepare(q{select * from something where id = ?});
for my $id (1, 2, 3) {
$sth->bind(0, $id, 'bigint');
$sth->execute;
while(my $row = $sth->fetchrow_hashref) {
print $row->{name} . "\n";
}
}
In Database::Async:
my $sth = $db->prepare(q{select * from something where id = ?});
(Future::Utils::fmap_void {
my ($id) = @_;
$sth->bind(0, $id, 'bigint')
->then(sub { $sth->execute })
->then(sub {
$sth->rows_hashref
->each(sub {
print $_->{name} . "\n";
})->completed
})
} foreach => [1, 2, 3 ])->get;
METHODS
transaction
Resolves to a Future which will yield a Database::Async::Transaction instance once ready.
txn
Executes code within a transaction. This is meant as a shorter form of the common idiom
$db->transaction
->then(sub {
my ($txn) = @_;
Future->call($code)
->then(sub {
$txn->commit
})->on_fail(sub {
$txn->rollback
});
})
The code must return a Future, and the transaction will only be committed if that Future resolves cleanly.
Returns a Future which resolves once the transaction is committed.
METHODS - Internal
You're welcome to call these, but they're mostly intended for internal usage, and the API may change in future versions.
uri
Returns the configured URI for populating database instances.
pool
Returns the Database::Async::Pool instance.
pool_args
Returns a list of standard pool constructor arguments.
configure
Applies configuration, see IO::Async::Notifier for details.
Supports the following named parameters:
uri
- the endpoint to use when connecting a new engine instanceengine
- the parameters to pass when instantiating a new Database::Async::Enginepool
- parameters for setting up the pool, or a Database::Async::Pool instance
ryu
A Ryu::Async instance, used for requesting sources, sinks and timers.
new_source
Instantiates a new Ryu::Source.
new_sink
Instantiates a new Ryu::Sink.
new_future
Instantiates a new Future.
METHODS - Internal, engine-related
request_engine
Attempts to instantiate and connect to a new Database::Async::Engine subclass. Returns a Future which should resolve to a new Database::Async::Engine instance when ready to use.
engine_instance
Loads the appropriate engine class and attaches to the loop.
engine_ready
Called by Database::Async::Engine instances when the engine is ready for queries.
queue_query
Assign the given query to the next available engine instance.
SEE ALSO
There's a range of options for interacting with databases - at a low level:
DBIx::Async - runs DBI in subprocesses, very inefficient but tries to make all the methods behave a bit like DBI but deferring results via Futures.
DBI - synchronous database access
Mojo::mysql - apparently has the ability to make MySQL "fun", an intriguing prospect indeed
and at higher levels, DBIx::Class or one of the many other ORMs might be worth a look. Nearly all of those will use DBI in some form or other. Several years ago I put together a list, the options have doubtless multiplied since then:
Asynchronous ORMs
The list here is sadly lacking:
Async::ORM - asynchronous ORM, see also article in http://showmetheco.de/articles/2010/1/mojolicious-async-orm-and-dbslayer.html
Synchronous ORMs
If you're happy for the database to tie up your process for an indefinite amount of time, you're in luck - there's a nice long list of modules to choose from here:
DBIx::Class - one of the more popular choices
Rose::DB::Object - written for speed, appears to cover most of the usual requirements, personally I found the API less intuitive than other options but it appears to be widely deployed
Fey::ORM - "newer" than the other options, also appears to be reasonably flexible
DBIx::DataModel - UML-based Object-Relational Mapping (ORM) framework
Alzabo - another ORM which includes features such as GUI schema editing and SQL diff
Class::DBI - generally considered to be superceded by DBIx::Class, which provides a compatibility layer for existing applications
Class::DBI::Lite - like Class::DBI but lighter, presumably
ORMesque - lightweight class-based ORM using SQL::Abstract
Oryx - Object persistence framework, meta-model based with support for both DBM and regular RDBMS backends, uses tied hashes and arrays
Tangram - An object persistence layer
KiokuDB - described as an "Object Graph storage engine" rather than an ORM
DBIx::DataModel - ORM using UML definitions
Jifty::DBI - another ORM
ORLite - minimal SQLite-based ORM
Ormlette - object persistence, "heavily influenced by Adam Kennedy's ORLite". "light and fluffy", apparently!
ObjectDB - another lightweight ORM, currently has only DBI as a dependency
ORM - looks like it has support for MySQL, PostgreSQL and SQLite
fytwORM - described as a "bare minimum ORM used for prototyping / proof of concepts"
DBR - Database Repository ORM
SweetPea::Application::Orm - specific to the SweetPea web framework
Jorge - ORM Made simple
Persistence::ORM - looks like a combination between persistent Perl objects and standard ORM
Teng - lightweight minimal ORM
Class::orMapper - DBI-based "easy O/R Mapper"
UR - class framework and object/relational mapper (ORM) for Perl
DBIx::NinjaORM - "Flexible Perl ORM for easy transitions from inline SQL to objects"
DBIx::Oro - Simple Relational Database Accessor
LittleORM - Moose-based ORM
Storm - another Moose-based ORM
DBIx::Mint - "A mostly class-based ORM for Perl"
Database interaction
AnyData - interface between DBI and arbitrary data sources such as XML or HTML
DBIx::ThinSQL - helpers for SQL statements
DB::Evented - event-based wrapper for DBI-like behaviour, uses AnyEvent::DBI
INHERITED METHODS
- Database::Async::DB
-
do, insert, prepare, query, quote_field_name, quote_table_name
- IO::Async::Notifier
-
add_child, adopt_future, can_event, children, configure_unknown, debug_printf, get_loop, invoke_error, invoke_event, loop, make_event_cb, maybe_invoke_event, maybe_make_event_cb, new, notifier_name, parent, remove_child, remove_from_parent
AUTHOR
Tom Molesworth <TEAM@cpan.org>
LICENSE
Copyright Tom Molesworth 2011-2019. Licensed under the same terms as Perl itself.