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Batch Apps Python Client

Project description

The package is to enable Azure Batch Apps customers to interact with the Management API using Python.

This client module is designed to work with the applications set up within an existing Batch Apps service. You can upload your Application Image and Cloud Assembly via the Batch Apps Portal. For more information on setting this up, check out this article.

License

This project is licensed under the MIT License. For details see LICENSE.txt or visit http://opensource.org/licenses/MIT

Installation

This package has been tested with Python 2.6, 2.7, 3.2, 3.3 and 3.4

>> pip install azure-batch-apps

Required packages:

Documentation

The documentation is generated by Sphinx and can be found zipped up in the project root. It is also hosted online here.

Release History

For full summary of changes, see CHANGES.txt

  • 2015-07-01 - 0.5.0
    • Added progress callbacks for file upload and download

    • Removed 3 instance minimum for pool creation

  • 2015-05-11 - 0.4.0
    • Added optional auth config validation

    • Added JobSubmission.settings attribute

  • 2015-01-13 - 0.3.0
    • Added preliminary support for Batch Apps pool management

  • 2014-11-26 - 0.2.0
    • Changed file upload format

    • Changed Authentication config format

    • Changed terminology: application to jobtype

    • Changed terminology: service principal to unattended account

    • Added FileCollection.index method

    • Added better handling for missing auth values in Configuration

  • 2014-11-03 - 0.1.1
    • Authentication bug fixes

  • 2014-10-28 - 0.1.0
    • Beta Release

Usage

Application Configuration

In order to interact with the applications set up in your services in your Batch Apps account, you will need to configure the python client.

When you instantiate a Configuration object for the first time, the configuration file will be created by default as:

$HOME/BatchAppsData/batch_apps.ini

A single configuration object represent a single service in your Batch Apps account. This means that each configuration needs an endpoint and client ID.

To set up a new job type reference you can add it to the configuration file, along with any custom parameters you want associated with it.

You can edit the file directly, or via the Configuration class:

from batchapps import Configuration

# These can be retrieved when creating an unattended account in the Batch Apps portal.
# See the authentication section below for more details.
endpoint = 'myservice.batchapps.core.windows.net'
account_details = 'ClientID=xxxxxxxx;TenantID=abcdefg'
account_key = '12345'

cfg = Configuration(log_level='debug', default=True)
cfg.aad_config(account=account_details, key=account_key,
        endpoint=endpoint, unattended=True)

cfg.add_jobtype('my_job_type')

# Set this job type as the current job type
cfg.current_jobtype('my_job_type')

# Set the current job type as the default job type for future jobs
cfg.set_default_jobtype()

# Set up some default parameter values for the current job type
cfg.set('quality', 10)
cfg.set('timeout', 500)

# Save updated configuration to file
cfg.save_config()

Authentication

The module authenticates with Azure Active Directory (an implementation of OAuth2). The batchapps module provides a helper class to assist in retrieving an AAD token using Requests-OAuthlib. However if you have a preferred OAuth implementation, you can authenticate with this instead.

You can create a set of “Unattended Account” credentials in your Batch Apps account. These will be in the format:

Account Id = ClientId=abc;TenantId=xyz
Account Key = ***********************

Once you have these credentials, you can authenticate the python client by adding them to the batch_apps.ini configuration either with Python, as described above, or by editing the file directly:

[Authentication]
endpoint = myservice.batchapps.core.windows.net
unattended_account = ClientID=abc;TenantID=xyz
unattended_key = ***********************

Then you can authenticate with these credentials:

from batchapps import AzureOAuth

creds = AzureOAuth.get_unattended_session()

Or alternatively, if you use a different AAD implementation to retrieve a token:

from batchapps import Credentials, Configuration
import my_oauth

client_id = "abc"
cfg = Configuration()

aad_token = my_oauth.get_token(client_id)
creds = Credentials(cfg, client_id, token=aad_token)

Authentication via logging into a Web UI will be supported soon.

Job Management

Job management, including submission, monitoring, and accessing outputs is done through the JobManager class:

from batchapps import AzureOAuth, JobManager
import time

creds = AzureOAuth.get_unattended_session()
mgr = JobManager(creds)

my_job = mgr.create_job("First Job")

# Apply any custom parameters and source files here
my_job.example_parameter = "test123"

# Then submit the job
new_job = my_job.submit()

job_progress = mgr.get_job(url=new_job['link'])

# Let's allow up to 30 minutes for the job to complete
timeout = time.time() + 1800

while time.time() < timeout:

        if job_progress.status is 'Complete':
                job_progress.get_output('c:\\my_download_dir')
                break

        if job_progress.status is 'Error':
                break

        time.sleep(30)
        job_progress.update()

else:
        job_progress.cancel()

File Management

File management, including syncing job source files and dependencies to the cloud can be done using the FileManager class:

from batchapps import AzureOAuth, FileManager

creds = AzureOAuth.get_unattended_session()
mgr = FileManager(creds)

file_collection = mgr.files_from_dir('c:\\my_job_assets')
job_source = mgr.file_from_path('C:\\start_job.bat')
file_collection.add(job_source)

file_collection.upload()

# Check files previously uploaded matching a certain name
mgr.find_files('start_job.bat')

# Retrieve a list of all uploaded files
mgr.list_files()

Pool Management

Pool management, including creating, resizing and deleting pools can be done using the PoolManager class.

Once a pool has been created, jobs can be submitted to it. By default, when a job has been submitted without referencing an existing pool, it will use an auto-pool which will be created for the running of the job, then deleted on completion:

from batchapps import AzureOAuth, PoolManager

creds = AzureOAuth.get_unattended_session()
mgr = PoolManager(creds)

new_pool = mgr.create_pool(target_size=5)

# Create new job submission, then submit to pool
my_job.pool = new_pool
my_job.submit()

# After job has completed, and we no longer need the pool
pool.delete()

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