Moto is a library that allows your python tests to easily mock out the boto library.
Imagine you have the following code that you want to test:
import boto
from boto.s3.key import Key
class MyModel(object):
def __init__(self, name, value):
self.name = name
self.value = value
def save(self):
conn = boto.connect_s3()
bucket = conn.get_bucket('mybucket')
k = Key(bucket)
k.key = self.name
k.set_contents_from_string(self.value)
Take a minute to think how you would have tested that in the past.
Now see how you could test it with Moto:
import boto
from moto import mock_s3
from mymodule import MyModel
@mock_s3
def test_my_model_save():
conn = boto.connect_s3()
# We need to create the bucket since this is all in Moto's 'virtual' AWS account
conn.create_bucket('mybucket')
model_instance = MyModel('steve', 'is awesome')
model_instance.save()
assert conn.get_bucket('mybucket').get_key('steve').get_contents_as_string() == 'is awesome'
With the decorator wrapping the test, all the calls to s3 are automatically mocked out. The mock keeps the state of the buckets and keys.
It gets even better! Moto isn't just S3. Here's the status of the other AWS services implemented.
|------------------------------------------------------------------------------|
| Service Name | Decorator | Development Status |
|------------------------------------------------------------------------------|
| API Gateway | @mock_apigateway | core endpoints done |
|------------------------------------------------------------------------------|
| Autoscaling | @mock_autoscaling| core endpoints done |
|------------------------------------------------------------------------------|
| Cloudformation | @mock_cloudformation| core endpoints done |
|------------------------------------------------------------------------------|
| Cloudwatch | @mock_cloudwatch | basic endpoints done |
|------------------------------------------------------------------------------|
| Data Pipeline | @mock_datapipeline| basic endpoints done |
|------------------------------------------------------------------------------|
| DynamoDB | @mock_dynamodb | core endpoints done |
| DynamoDB2 | @mock_dynamodb2 | core endpoints + partial indexes |
|------------------------------------------------------------------------------|
| EC2 | @mock_ec2 | core endpoints done |
| - AMI | | core endpoints done |
| - EBS | | core endpoints done |
| - Instances | | all endpoints done |
| - Security Groups | | core endpoints done |
| - Tags | | all endpoints done |
|------------------------------------------------------------------------------|
| ECS | @mock_ecs | basic endpoints done |
|------------------------------------------------------------------------------|
| ELB | @mock_elb | core endpoints done |
|------------------------------------------------------------------------------|
| EMR | @mock_emr | core endpoints done |
|------------------------------------------------------------------------------|
| Glacier | @mock_glacier | core endpoints done |
|------------------------------------------------------------------------------|
| IAM | @mock_iam | core endpoints done |
|------------------------------------------------------------------------------|
| Lambda | @mock_lambda | basic endpoints done |
|------------------------------------------------------------------------------|
| Kinesis | @mock_kinesis | core endpoints done |
|------------------------------------------------------------------------------|
| KMS | @mock_kms | basic endpoints done |
|------------------------------------------------------------------------------|
| RDS | @mock_rds | core endpoints done |
|------------------------------------------------------------------------------|
| RDS2 | @mock_rds2 | core endpoints done |
|------------------------------------------------------------------------------|
| Redshift | @mock_redshift | core endpoints done |
|------------------------------------------------------------------------------|
| Route53 | @mock_route53 | core endpoints done |
|------------------------------------------------------------------------------|
| S3 | @mock_s3 | core endpoints done |
|------------------------------------------------------------------------------|
| SES | @mock_ses | core endpoints done |
|------------------------------------------------------------------------------|
| SNS | @mock_sns | core endpoints done |
|------------------------------------------------------------------------------|
| SQS | @mock_sqs | core endpoints done |
|------------------------------------------------------------------------------|
| STS | @mock_sts | core endpoints done |
|------------------------------------------------------------------------------|
| SWF | @mock_sfw | basic endpoints done |
|------------------------------------------------------------------------------|
Imagine you have a function that you use to launch new ec2 instances:
import boto
def add_servers(ami_id, count):
conn = boto.connect_ec2('the_key', 'the_secret')
for index in range(count):
conn.run_instances(ami_id)
To test it:
from . import add_servers
@mock_ec2
def test_add_servers():
add_servers('ami-1234abcd', 2)
conn = boto.connect_ec2('the_key', 'the_secret')
reservations = conn.get_all_instances()
assert len(reservations) == 2
instance1 = reservations[0].instances[0]
assert instance1.image_id == 'ami-1234abcd'
All of the services can be used as a decorator, context manager, or in a raw form.
@mock_s3
def test_my_model_save():
conn = boto.connect_s3()
conn.create_bucket('mybucket')
model_instance = MyModel('steve', 'is awesome')
model_instance.save()
assert conn.get_bucket('mybucket').get_key('steve').get_contents_as_string() == 'is awesome'
def test_my_model_save():
with mock_s3():
conn = boto.connect_s3()
conn.create_bucket('mybucket')
model_instance = MyModel('steve', 'is awesome')
model_instance.save()
assert conn.get_bucket('mybucket').get_key('steve').get_contents_as_string() == 'is awesome'
def test_my_model_save():
mock = mock_s3()
mock.start()
conn = boto.connect_s3()
conn.create_bucket('mybucket')
model_instance = MyModel('steve', 'is awesome')
model_instance.save()
assert conn.get_bucket('mybucket').get_key('steve').get_contents_as_string() == 'is awesome'
mock.stop()
In general, Moto doesn't rely on anything specific to Boto. It only mocks AWS endpoints, so there should be no issue with boto3 or using other languages. Feel free to open an issue if something isn't working though. If you are using another language, you will need to either use the stand-alone server mode (more below) or monkey patch the HTTP calls yourself.
Moto also has a stand-alone server mode. This allows you to utilize the backend structure of Moto even if you don't use Python.
It uses flask, which isn't a default dependency. You can install the server 'extra' package with:
pip install moto[server]
You can then start it running a service:
$ moto_server ec2
* Running on http://127.0.0.1:5000/
You can also pass the port:
$ moto_server ec2 -p3000
* Running on http://127.0.0.1:3000/
If you want to be able to use the server externally you can pass an IP address to bind to as a hostname or allow any of your external interfaces with 0.0.0.0:
$ moto_server ec2 -H 0.0.0.0
* Running on http://0.0.0.0:5000/
Please be aware this might allow other network users to access your server.
Then go to localhost to see a list of running instances (it will be empty since you haven't added any yet).
If you want to use boto with this (using the simpler decorators above instead is strongly encouraged), the easiest way is to create a boto config file (~/.boto
) with the following values:
[Boto]
is_secure = False
https_validate_certificates = False
proxy_port = 5000
proxy = 127.0.0.1
If you want to use boto3 with this, you can pass an endpoint_url
to the resource
boto3.resource(
service_name='s3',
region_name='us-west-1',
endpoint_url='http://localhost:5000',
)
$ pip install moto
A huge thanks to Gabriel Falcão and his HTTPretty library. Moto would not exist without it.