NAME

Paws - A Perl SDK for AWS (Amazon Web Services) APIs

SYNOPSIS

use Paws;
my $obj = Paws->service('...');
my $res = $obj->MethodCall(Arg1 => $val1, Arg2 => $val2);
print $res->AttributeFromResult;

DESCRIPTION

Paws is an attempt to develop an always up-to-date SDK that covers all possible AWS services.

STATUS

Please consider the SDK is beta quality. The intention of publishing to CPAN is having the community find the SDK, try it, give feedback, etc. Some services are still not working, and some heavy refactoring will still be done to the internals. The external interface to SDK users will try to be kept stable, and changes to it should be notified via ChangeLog

SUPPORTED SERVICES

Paws::ACM

Paws::ApiGateway

Paws::ApplicationAutoScaling

Paws::AppStream

Paws::Athena

Paws::AutoScaling

Paws::Batch

Paws::Budgets

Paws::CloudDirectory

Paws::CloudFormation

Paws::CloudFront

Paws::CloudHSM

Paws::CloudHSMv2

Paws::CloudSearch

Paws::CloudSearchDomain

Paws::CloudTrail

Paws::CloudWatch

Paws::CloudWatch

Paws::CloudWatchEvents

Paws::CloudWatchLogs

Paws::CodeBuild

Paws::CodeCommit

Paws::CodeDeploy

Paws::CodePipeline

Paws::CodeStar

Paws::CognitoIdentity

Paws::CognitoIdp

Paws::CognitoSync

Paws::Config

Paws::CUR

Paws::DataPipeline

Paws::DAX

Paws::DeviceFarm

Paws::DirectConnect

Paws::Discovery

Paws::DMS

Paws::DS

Paws::DynamoDB

Paws::DynamoDBStreams

Paws::EC2

Paws::ECR

Paws::ECS

Paws::EFS

Paws::ElastiCache

Paws::ElasticBeanstalk

Paws::ElasticTranscoder

Paws::ELB

Paws::ELB

Paws::ELBv2

Paws::EMR

Paws::EMR

Paws::ES

Paws::Firehose

Paws::GameLift

Paws::Glacier

Paws::Glue

Paws::Greengrass

Paws::Health

Paws::IAM

Paws::ImportExport

Paws::Inspector

Paws::IoT

Paws::IoTData

Paws::Kinesis

Paws::KinesisAnalytics

Paws::KMS

Paws::Lambda

Paws::LexModels

Paws::LexRuntime

Paws::Lightsail

Paws::MachineLearning

Paws::MarketplaceCommerceAnalytics

Paws::MarketplaceEntitlement

Paws::MarketplaceMetering

Paws::MigrationHub

Paws::MobileHub

Paws::MTurk

Paws::OpsWorks

Paws::OpsWorksCM

Paws::Organizations

Paws::Pinpoint

Paws::Polly

Paws::RDS

Paws::RedShift

Paws::Rekognition

Paws::ResourceTagging

Paws::Route53

Paws::Route53Domains

Paws::S3

Paws::SDB

Paws::ServiceCatalog

Paws::SES

Paws::SES

Paws::Shield

Paws::Signin

Paws::SimpleDB

Paws::SimpleWorkflow

Paws::SMS

Paws::Snowball

Paws::SNS

Paws::SQS

Paws::SSM

Paws::StepFunctions

Paws::StorageGateway

Paws::STS

Paws::Support

Paws::WAF

Paws::WAFRegional

Paws::WorkDocs

Paws::WorkSpaces

Paws::XRay

SERVICES CLASSES

Each service in AWS (EC2, CloudFormation, SQS, SNS, etc) has a service class. The service class represents the properties that a web service has (how to call it, what methods it has, how to authenticate, etc). When a service class is instantiated with the right properties (region, if needed, credentials, caller, etc), it will be able to make calls to the service.

Service classes are obtained through

my $service_class = Paws->class_for_service('Service');
my $service_object = $service_class->new(region => '...', caller => ...)

Although they are seldom needed. 99% of the time you want service objects directly obtained with the ->service method (read next section) since you have to write less code.

SERVICE OBJECTS

Each Service Object represents the ability to call methods on a service endpoint. Those endpoints are either global, or bound to a region depending on the service. Also, each object can be customized with a credential provider, that tells the object where to obtain credentials for the call (you can get them from the environment, from the filesystem, from the AWS Instance Profile, STS, etc.

To obtain a service object, call the ->service method

use Paws;
my $service = Paws->service('Service');

You can pass extra parameters if the service is bound to a region:

my $service = Paws->service('Service', region => 'us-east-1');

These parameters are basically passed to the service class constructor

AUTHENTICATION

Service classes by default try to authenticate with a chained authenticator. The chained authenticator tries to first find credentials in your environment variables AWS_ACCESS_KEY and AWS_SECRET_KEY (note that AWS_ACCESS_KEY_ID and AWS_SECRET_ACCESS_KEY are also scanned for compatibility with the official SDKs). Second, it will look for credentials in the default profile of the ~/.aws/credentials or the file in AWS_CONFIG_FILE env variable (an ini-formatted file). Last, if no environment variables are found, then a call to retrieve Role credentials is done. If your instance is running on an AWS instance, and has a Role assigned, the SDK will automatically retrieve credentials to call any services that the instances Role permits.

Please never burn credentials into your code. That's why the methods for passing an explicit access key and secret key are not documented.

So, instantiating a service with

my $ec2 = Paws->service('EC2', region => 'eu-west-1');

we get an service object that will try to authenticate with environment, credential file, or an instance role.

When instantiating a service object, you can also pass a custom credential provider:

use Paws::Credential::STS;

my $cred_provider = Paws::Credential::STS->new(
  Name => 'MyName',
  DurationSeconds => 900,
  Policy => '{"Version":"2012-10-17","Statement":[{"Effect": "Allow","Action":["ec2:DescribeInstances"],"Resource":"*"}]}'
);
my $ec2 = Paws->service('EC2', credentials => $cred_provider, region => 'eu-west-1');

In this example we instance a service object that uses the STS service to create temporary credentials that only let the service object call DescribeInstances.

Paws bundles some pre-baked credential providers:

Paws::Credential::ProviderChain - Gets credentials from a list of providers, returning the first provider to return credentials

Paws::Credential::Environment - Gets credentials from environment variables

Paws::Credential::File - Gets credentials from AWS SDK config files

Paws::Credential::InstanceProfile - Gets credentials from the InstanceProfile (Role) of the running instance

Paws::Credential::STS - Gets temporary credentials from the Secure Token Service

Paws::Credential::AssumeRole - Gets temporary credentials with AssumeRole

Paws::Credential::AssumeRoleWithSAML - Gets temporary credentials with AssumeRoleWithSAML

Paws::Credential::Explicit - Gets credentials specified in the code

Using Service objects (Calling APIs)

Each API call is represented as a method call with the same name as the API call. The arguments to the call are passed as lists (named parameters) to the call. So, to call DescribeInstances on the EC2 service:

my $result = $ec2->DescribeInstances;

The DescribeInstances call has no required parameters, but if needed, we can pass them in (you can look them up in Paws::EC2 and see detail in Paws::EC2::DescribeInstances

my $result = $ec2->DescribeInstances(MaxResults => 5);

If the parameter is an Array:

my $result = $ec2->DescribeInstances(InstanceIds => [ 'i-....' ]);

If the parameter to be passed in is a complex value (an object)

my $result = $ec2->DescribeInstances(Filters => [ { Name => '', Value => '' } ])

RETURN VALUES

The AWS APIs return nested datastructures in various formats. The SDK converts these datastructures into objects that can then be used as wanted.

my $private_dns = $result->Reservations->[0]->Instances->[0]->PrivateDnsName;

CONFIGURATION

Paws instances have a configuration. The configuration is basically a specification of values that will be passed to the service method each time it's called

# the credentials and the caller keys accept an instance or the name of a class as a 
# string (the class will be loaded and the constructor of that class will be automatically called
my $paws1 = Paws->new(config => { credentials => MyCredProvider->new, region => 'eu-west-1' });
my $paws2 = Paws->new(config => { caller => 'MyCustomCaller' });

# EC2 service with MyCredProvider in eu-west-1
my $ec2 = $paws1->service('EC2');

# DynamoDB service with MyCustomCaller in us-east-1. region is needed because it's not in the config
my $ddb = $paws2->service('DynamoDB', region => 'us-east-1');

# DynamoDB in eu-west-1 with MyCredProvider
my $other_ddb = $paws1->service('DynamoDB');

The attributes that can be configured are:

credentials

Accepts a string which value is the name of a class, or an already instantiated object. If a string is passed, the class will be loaded, and the constructor called (without parameters). Also, the resulting instance or the already instantiated object has to have the Paws::Credential role.

caller

Accepts a string which value is the name of a class, or an already instantiated object. If a string is passed, the class will be loaded, and the constructor called (without parameters). Also, the resulting instance or the already instantiated object has to have the Paws::Net::CallerRole role.

region

A string representing the region that service objects will be instantiated with. Most services need a region specified, meaning that you will have to specify the desired region every time you call the service method.

my $cfn = Paws->service('CloudFormation', region => 'eu-west-1');

Some services (like IAM) are global, so they don't need their region specified:

my $iam = Paws->service('IAM');

A special service is STS, which by default has a global endpoint, but you can also specify regional endpoints

my $global_sts = Paws->service('STS');
my $regional_sts = Paws->service('STS', region => 'eu-west-1');

endpoint

Paws needs to send HTTP requests to different URLS (endpoints) depending on the service and the region. URLs are normally automatically derived by specifying the region, but for special cases, like pointing to "fake-sqs" or "fake-s3" services, you can:

Paws->service('SQS', endpoint => 'http://localhost:3000', region => 'eu-west-1');

Some services, like the MachineLearning predictor API want you to specify a custom endpoint:

my $model = $ml->GetMLModel(MLModelId => $model_id);
my $predictor = Paws->service('ML', endpoint => $model->EndpointInfo->EndpointUrl, region => 'eu-west-1');
$predictor->...

Pluggability

Credential Provider Pluggability

Credential classes need to have the Role Paws::Credential applied. This obliges them to implement access_key, secret_key and session_token methods. The obtention of this data can be customized to be retrieved whereever the developer considers useful (files, environment, other services, etc). Take a look at the Paws::Credential::XXXX namespace to find already implemented credential providers.

The credential objects' access_key, secret_key and session_token methods will be called each time an API call has to be signed.

Caller Pluggability

Caller classes need to have the Role Paws::Net::CallerRole applied. This obliges them to implement the do_call method. Tests use this interface to mock calls and responses to the APIs (without using the network).

The caller instance is responsable for doing the network Input/Output with some type of HTTP request library, and returning the Result from the API.

These callers are included and supported in Paws:

Paws::Net::Caller: Uses HTTP::Tiny. It's the default caller for Paws

Paws::Net::MojoAsyncCaller: Experimental asyncronous IO caller. Paws method calls return futures instead of results

Paws::Net::LWPCaller: Uses LWP. LWP supports HTTPS proxies, so Paws can call AWS from behind an HTTPS proxy.

Paws::Net::FurlCaller: Uses Furl: a lightning fast HTTP client

Optimization

Preloading services and operations

Paws->preload_service($service)
Paws->preload_service($service, @methods)

Paws manages a lot of objects that are loaded dynamically as needed. This causes high memory consumption if you do operations with Paws in a forked environment because each child loads a separate copy of all the classes it needs to do the calls. Paws provides the preload_service operation. Call it with the name of the service before forking off so your server can benefit from copy on write memory sharing. The parent class will load all the classes needed so that child processes don't need to load them.

Some classes have lot's of calls, so preloading them can be quite expensive. If you call preload_service with a list of the methods you will call, it will only load classes needed for those calls. This is specially useful for Paws::EC2, for example.

Preloading doesn't change the usage of Paws. That means that all services and methods still work without any change, just that if they're not preloaded they'll be loaded at runtime.

Immutabilizing classes

Paws objects are programmed with Moose (the Modern Perl Object Framework). Moose objects can be immutibilized so that method calls perform better, at the cost of startup time. If you deem your usage of Paws to be long-lived, you can call

Paws->default_config->immutable(1);

as early as possible in the code. Very important that the immutable flag be activated before calling preload_service.

AUTHOR

Jose Luis Martinez
CPAN ID: JLMARTIN
CAPSiDE
jlmartinez@capside.com

SEE ALSO

http://aws.amazon.com/documentation/

https://github.com/pplu/aws-sdk-perl

BUGS and SOURCE

The source code is located here: https://github.com/pplu/aws-sdk-perl

Please report bugs to: https://github.com/pplu/aws-sdk-perl/issues

COPYRIGHT and LICENSE

Copyright (c) 2015 by Jose Luis Martinez Torres

This code is distributed under the Apache 2 License. The full text of the license can be found in the LICENSE file included with this module.

CONTRIBUITIONS

CAPSiDE (http://www.capside.com) for letting Paws be contributed in an open source model and giving me time to build and maintain it regularly

Luis Alberto Gimenez (@agimenez) for - The git-fu cleaning up the "pull other sdks" code - Credential Providers code - Fixes for users that have no HOME env variable - FileCaller to fully mock responses

Srinvas (@kidambisrinivas) for testing, bug reporting and fixing

juair10 for corrections and testing

CHORNY for CPAN and cpanfile packaging corrections

Iñigo Tejedor for service endpoint resolution based on rules

codehead for helping fix SQS Queue Maps

mbartold for helping fix SQS MessageBatch functionality

coreymayer for reporting bug in RestXmlCaller

arc (Aaron Crane) for documentation patches

dtikhonov for LWP Caller and bug reporting/fixing

vivus-ignis for DynamoDB bug reporting and test scripts for DynamoDB

karenetheridge for bug reporting, pull requests and help

ioanrogers for fixing unicode issues in tests

ilmari for fixing issues with timestamps in Date and X-Amz-Date headers, test fixes and 5.10 support fixes, documentation issue fixes for S3, CloudFront and Route53, help with number stringification

stevecaldwell77 for contributing support for temporary credentials in S3

Ryan Olson (BeerBikesBBQ) for contributing documentation fixes

Roger Pettett for testing and contributing fixes for tests on MacOSX

Henri Yandell for help with licensing issues

Oriol Soriano (@ureesoriano) for contribution to API builders

H. Daniel Cesario (@maneta) for devel setup instructions on RH and MacOSX

Glen van Ginkel for contributions to get S3 working

Javier Arellano for discovering Tagging bug

Ioan Rogers for contributing AssumeRoleWithSAML with ADFS auth example

Miquel Soriano for reporting a bug with DescribeAutoScalingGroups

Albert Bendicho (wiof) for contributing better retry logic

Brian Hartsock for better handling of XMLResponse exceptions

rpcme for reporting various bugs in the SDK

glenveegee for lots of work sorting out the S3 implementation

Grinzz for many bugs, suggestions and fixes

Dakkar for solving issues with parameter passing

Arthur Axel fREW Schmidt for speeding up credential refreshing

PopeFelix for solving issues around S3 and MojoAsyncCaller

meis for contributing Paws::Credential::Explicit

sven-schubert for contributing fixes to RestXML services, working on fixing S3 to work correctly.

SeptamusNonovant for fixing paginators in non-callback mode

gadgetjunkie for contributing the ECS credential provider