frontend/afe/rpc_interface.py - platform/external/autotest - Gitiles

 """\
 Functions to expose over the RPC interface.

 For all modify* and delete* functions that ask for an 'id' parameter to
 identify the object to operate on, the id may be either
  * the database row ID
  * the name of the object (label name, hostname, user login, etc.)
  * a dictionary containing uniquely identifying field (this option should seldom
    be used)

 When specifying foreign key fields (i.e. adding hosts to a label, or adding
 users to an ACL group), the given value may be either the database row ID or the
 name of the object.

 All get* functions return lists of dictionaries.  Each dictionary represents one
 object and maps field names to values.

 Some examples:
 modify_host(2, hostname='myhost') # modify hostname of host with database ID 2
 modify_host('ipaj2', hostname='myhost') # modify hostname of host 'ipaj2'
 modify_test('sleeptest', test_type='Client', params=', seconds=60')
 delete_acl_group(1) # delete by ID
 delete_acl_group('Everyone') # delete by name
 acl_group_add_users('Everyone', ['mbligh', 'showard'])
 get_jobs(owner='showard', status='Queued')

 See doctests/rpc_test.txt for (lots) more examples.
 """

 __author__ = 'showard@google.com (Steve Howard)'

 from frontend import thread_local
 from frontend.afe import models, model_logic, control_file, rpc_utils
 from autotest_lib.client.common_lib import global_config


 # labels

 def add_label(name, kernel_config=None, platform=None, only_if_needed=None):
     return models.Label.add_object(name=name, kernel_config=kernel_config,
                                    platform=platform,
                                    only_if_needed=only_if_needed).id


 def modify_label(id, **data):
     models.Label.smart_get(id).update_object(data)


 def delete_label(id):
     models.Label.smart_get(id).delete()


 def label_add_hosts(id, hosts):
     host_objs = [models.Host.smart_get(host) for host in hosts]
     models.Label.smart_get(id).host_set.add(*host_objs)


 def label_remove_hosts(id, hosts):
     host_objs = [models.Host.smart_get(host) for host in hosts]
     models.Label.smart_get(id).host_set.remove(*host_objs)


 def get_labels(**filter_data):
     return rpc_utils.prepare_for_serialization(
         models.Label.list_objects(filter_data))


 # hosts

 def add_host(hostname, status=None, locked=None, protection=None):
     return models.Host.add_object(hostname=hostname, status=status,
                                   locked=locked, protection=protection).id


 def modify_host(id, **data):
     models.Host.smart_get(id).update_object(data)


 def host_add_labels(id, labels):
     labels = [models.Label.smart_get(label) for label in labels]
     models.Host.smart_get(id).labels.add(*labels)


 def host_remove_labels(id, labels):
     labels = [models.Label.smart_get(label) for label in labels]
     models.Host.smart_get(id).labels.remove(*labels)


 def delete_host(id):
     models.Host.smart_get(id).delete()


 def get_hosts(multiple_labels=[], **filter_data):
     """\
     multiple_labels: match hosts in all of the labels given.  Should be a
     list of label names.
     """
     filter_data['extra_args'] = (
         rpc_utils.extra_host_filters(multiple_labels))
     hosts = models.Host.list_objects(filter_data)
     for host in hosts:
         host_obj = models.Host.objects.get(id=host['id'])
         host['labels'] = [label.name
                           for label in host_obj.labels.all()]
         platform = host_obj.platform()
         host['platform'] = platform and platform.name or None
     return rpc_utils.prepare_for_serialization(hosts)


 def get_num_hosts(multiple_labels=[], **filter_data):
     filter_data['extra_args'] = (
         rpc_utils.extra_host_filters(multiple_labels))
     return models.Host.query_count(filter_data)


 # tests

 def add_test(name, test_type, path, author=None, dependencies=None,
              experimental=True, run_verify=None, test_class=None,
              test_time=None, test_category=None, description=None,
              sync_count=1):
     return models.Test.add_object(name=name, test_type=test_type, path=path,
                                   author=author, dependencies=dependencies,
                                   experimental=experimental,
                                   run_verify=run_verify, test_time=test_time,
                                   test_category=test_category,
                                   sync_count=sync_count,
                                   test_class=test_class,
                                   description=description).id


 def modify_test(id, **data):
     models.Test.smart_get(id).update_object(data)


 def delete_test(id):
     models.Test.smart_get(id).delete()


 def get_tests(**filter_data):
     return rpc_utils.prepare_for_serialization(
         models.Test.list_objects(filter_data))


 # profilers

 def add_profiler(name, description=None):
     return models.Profiler.add_object(name=name, description=description).id


 def modify_profiler(id, **data):
     models.Profiler.smart_get(id).update_object(data)


 def delete_profiler(id):
     models.Profiler.smart_get(id).delete()


 def get_profilers(**filter_data):
     return rpc_utils.prepare_for_serialization(
         models.Profiler.list_objects(filter_data))


 # users

 def add_user(login, access_level=None):
     return models.User.add_object(login=login, access_level=access_level).id


 def modify_user(id, **data):
     models.User.smart_get(id).update_object(data)


 def delete_user(id):
     models.User.smart_get(id).delete()


 def get_users(**filter_data):
     return rpc_utils.prepare_for_serialization(
         models.User.list_objects(filter_data))


 # acl groups

 def add_acl_group(name, description=None):
     group = models.AclGroup.add_object(name=name, description=description)
     group.users.add(thread_local.get_user())
     return group.id


 def modify_acl_group(id, **data):
     group = models.AclGroup.smart_get(id)
     group.check_for_acl_violation_acl_group()
     group.update_object(data)
     group.add_current_user_if_empty()


 def acl_group_add_users(id, users):
     group = models.AclGroup.smart_get(id)
     group.check_for_acl_violation_acl_group()
     users = [models.User.smart_get(user) for user in users]
     group.users.add(*users)


 def acl_group_remove_users(id, users):
     group = models.AclGroup.smart_get(id)
     group.check_for_acl_violation_acl_group()
     users = [models.User.smart_get(user) for user in users]
     group.users.remove(*users)
     group.add_current_user_if_empty()


 def acl_group_add_hosts(id, hosts):
     group = models.AclGroup.smart_get(id)
     group.check_for_acl_violation_acl_group()
     hosts = [models.Host.smart_get(host) for host in hosts]
     group.hosts.add(*hosts)
     group.on_host_membership_change()


 def acl_group_remove_hosts(id, hosts):
     group = models.AclGroup.smart_get(id)
     group.check_for_acl_violation_acl_group()
     hosts = [models.Host.smart_get(host) for host in hosts]
     group.hosts.remove(*hosts)
     group.on_host_membership_change()


 def delete_acl_group(id):
     models.AclGroup.smart_get(id).delete()


 def get_acl_groups(**filter_data):
     acl_groups = models.AclGroup.list_objects(filter_data)
     for acl_group in acl_groups:
         acl_group_obj = models.AclGroup.objects.get(id=acl_group['id'])
         acl_group['users'] = [user.login
                               for user in acl_group_obj.users.all()]
         acl_group['hosts'] = [host.hostname
                               for host in acl_group_obj.hosts.all()]
     return rpc_utils.prepare_for_serialization(acl_groups)


 # jobs

 def generate_control_file(tests, kernel=None, label=None, profilers=[]):
     """\
     Generates a client-side control file to load a kernel and run a set of
     tests.  Returns a dict with the following keys:
     control_file - the control file text
     is_server - is the control file a server-side control file?
     is_synchronous - should the control file be run synchronously?
     dependencies - a list of the names of labels on which the job depends

     tests: list of tests to run
     kernel: kernel to install in generated control file
     label: name of label to grab kernel config from
     profilers: list of profilers to activate during the job
     """
     if not tests:
         return dict(control_file='', is_server=False, is_synchronous=False,
                     dependencies=[])

     cf_info, test_objects, profiler_objects, label = (
         rpc_utils.prepare_generate_control_file(tests, kernel, label,
                                                 profilers))
     cf_info['control_file'] = control_file.generate_control(
         tests=test_objects, kernel=kernel, platform=label,
         profilers=profiler_objects, is_server=cf_info['is_server'])
     return cf_info


 def create_job(name, priority, control_file, control_type, timeout=None,
                is_synchronous=None, hosts=None, meta_hosts=None,
                run_verify=True, one_time_hosts=None, email_list='',
                dependencies=[]):
     """\
     Create and enqueue a job.

     priority: Low, Medium, High, Urgent
     control_file: contents of control file
     control_type: type of control file, Client or Server
     is_synchronous: boolean indicating if a job is synchronous
     hosts: list of hosts to run job on
     meta_hosts: list where each entry is a label name, and for each entry
                 one host will be chosen from that label to run the job
                 on.
     timeout: hours until job times out
     email_list: string containing emails to mail when the job is done
     dependencies: list of label names on which this job depends
     """

     if timeout is None:
         timeout=global_config.global_config.get_config_value(
             'AUTOTEST_WEB', 'job_timeout_default')

     owner = thread_local.get_user().login
     # input validation
     if not hosts and not meta_hosts and not one_time_hosts:
         raise model_logic.ValidationError({
             'arguments' : "You must pass at least one of 'hosts', "
                           "'meta_hosts', or 'one_time_hosts'"
             })

     labels_by_name = dict((label.name, label)
                           for label in models.Label.objects.all())

     # convert hostnames & meta hosts to host/label objects
     host_objects = []
     metahost_objects = []
     metahost_counts = {}
     for host in hosts or []:
         this_host = models.Host.smart_get(host)
         host_objects.append(this_host)
     for label in meta_hosts or []:
         this_label = labels_by_name[label]
         metahost_objects.append(this_label)
         metahost_counts.setdefault(this_label, 0)
         metahost_counts[this_label] += 1
     for host in one_time_hosts or []:
         this_host = models.Host.create_one_time_host(host)
         host_objects.append(this_host)

     # check that each metahost request has enough hosts under the label
     for label, requested_count in metahost_counts.iteritems():
         available_count = label.host_set.count()
         if requested_count > available_count:
             error = ("You have requested %d %s's, but there are only %d."
                      % (requested_count, label.name, available_count))
             raise model_logic.ValidationError({'meta_hosts' : error})

     # default is_synchronous to some appropriate value
     ControlType = models.Job.ControlType
     control_type = ControlType.get_value(control_type)
     if is_synchronous is None:
         is_synchronous = (control_type == ControlType.SERVER)
     # convert the synch flag to an actual type
     if is_synchronous:
         synch_type = models.Test.SynchType.SYNCHRONOUS
     else:
         synch_type = models.Test.SynchType.ASYNCHRONOUS

     rpc_utils.check_job_dependencies(host_objects, dependencies)
     dependency_labels = [labels_by_name[label_name]
                          for label_name in dependencies]

     job = models.Job.create(owner=owner, name=name, priority=priority,
                             control_file=control_file,
                             control_type=control_type,
                             synch_type=synch_type,
                             hosts=host_objects + metahost_objects,
                             timeout=timeout,
                             run_verify=run_verify,
                             email_list=email_list.strip(),
                             dependencies=dependency_labels)
     job.queue(host_objects + metahost_objects)
     return job.id


 def abort_job(id):
     """\
     Abort the job with the given id number.

     TODO: this method is deprecated in favor of abort_jobs().  We need
     to eventually remove this rpc call entirely.
     """
     job = models.Job.objects.get(id=id)
     job.abort()


 def abort_jobs(job_ids):
     """\
     Abort a list of jobs.
     """
     for job in models.Job.objects.in_bulk(job_ids).values():
         job.abort()


 def get_jobs(not_yet_run=False, running=False, finished=False, **filter_data):
     """\
     Extra filter args for get_jobs:
     -not_yet_run: Include only jobs that have not yet started running.
     -running: Include only jobs that have start running but for which not
     all hosts have completed.
     -finished: Include only jobs for which all hosts have completed (or
     aborted).
     At most one of these three fields should be specified.
     """
     filter_data['extra_args'] = rpc_utils.extra_job_filters(not_yet_run,
                                                             running,
                                                             finished)
     jobs = models.Job.list_objects(filter_data)
     models.Job.objects.populate_dependencies(jobs)
     return rpc_utils.prepare_for_serialization(jobs)


 def get_num_jobs(not_yet_run=False, running=False, finished=False,
                  **filter_data):
     """\
     See get_jobs() for documentation of extra filter parameters.
     """
     filter_data['extra_args'] = rpc_utils.extra_job_filters(not_yet_run,
                                                             running,
                                                             finished)
     return models.Job.query_count(filter_data)


 def get_jobs_summary(**filter_data):
     """\
     Like get_jobs(), but adds a 'status_counts' field, which is a dictionary
     mapping status strings to the number of hosts currently with that
     status, i.e. {'Queued' : 4, 'Running' : 2}.
     """
     jobs = get_jobs(**filter_data)
     ids = [job['id'] for job in jobs]
     all_status_counts = models.Job.objects.get_status_counts(ids)
     for job in jobs:
         job['status_counts'] = all_status_counts[job['id']]
     return rpc_utils.prepare_for_serialization(jobs)


 def get_info_for_clone(id, preserve_metahosts):
     """\
     Retrieves all the information needed to clone a job.
     """
     info = {}
     job = models.Job.objects.get(id=id)
     query = job.hostqueueentry_set.filter(deleted=False)

     hosts = []
     meta_hosts = []

     # For each queue entry, if the entry contains a host, add the entry into the
     # hosts list if either:
     #     It is not a metahost.
     #     It was an assigned metahost, and the user wants to keep the specific
     #         assignments.
     # Otherwise, add the metahost to the metahosts list.
     for queue_entry in query:
         if (queue_entry.host and (preserve_metahosts
                                   or not queue_entry.meta_host)):
             hosts.append(queue_entry.host)
         else:
             meta_hosts.append(queue_entry.meta_host.name)

     host_dicts = []

     for host in hosts:
         # one-time host
         if host.invalid:
             host_dict = {}
             host_dict['hostname'] = host.hostname
             host_dict['id'] = host.id
             host_dict['platform'] = '(one-time host)'
             host_dict['locked_text'] = ''
         else:
             host_dict = get_hosts(id=host.id)[0]
             other_labels = host_dict['labels']
             if host_dict['platform']:
                 other_labels.remove(host_dict['platform'])
             host_dict['other_labels'] = ', '.join(other_labels)
         host_dicts.append(host_dict)

     meta_host_counts = {}
     for meta_host in meta_hosts:
         meta_host_counts.setdefault(meta_host, 0)
         meta_host_counts[meta_host] += 1

     info['job'] = job.get_object_dict()
     info['meta_host_counts'] = meta_host_counts
     info['hosts'] = host_dicts

     return rpc_utils.prepare_for_serialization(info)


 # host queue entries

 def get_host_queue_entries(**filter_data):
     """\
     TODO
     """
     query = models.HostQueueEntry.query_objects(filter_data)
     all_dicts = []
     for queue_entry in query.select_related():
         entry_dict = queue_entry.get_object_dict()
         if entry_dict['host'] is not None:
             entry_dict['host'] = queue_entry.host.get_object_dict()
         entry_dict['job'] = queue_entry.job.get_object_dict()
         all_dicts.append(entry_dict)
     return rpc_utils.prepare_for_serialization(all_dicts)


 def get_num_host_queue_entries(**filter_data):
     """\
     Get the number of host queue entries associated with this job.
     """
     return models.HostQueueEntry.query_count(filter_data)


 def get_hqe_percentage_complete(**filter_data):
     """
     Computes the percentage of host queue entries matching the given filter data
     that are complete.
     """
     query = models.HostQueueEntry.query_objects(filter_data)
     complete_count = query.filter(complete=True).count()
     total_count = query.count()
     if total_count == 0:
         return 1
     return float(complete_count) / total_count


 # other

 def echo(data=""):
     """\
     Returns a passed in string. For doing a basic test to see if RPC calls
     can successfully be made.
     """
     return data


 def get_static_data():
     """\
     Returns a dictionary containing a bunch of data that shouldn't change
     often and is otherwise inaccessible.  This includes:
     priorities: list of job priority choices
     default_priority: default priority value for new jobs
     users: sorted list of all users
     labels: sorted list of all labels
     tests: sorted list of all tests
     profilers: sorted list of all profilers
     user_login: logged-in username
     host_statuses: sorted list of possible Host statuses
     job_statuses: sorted list of possible HostQueueEntry statuses
     """
     result = {}
     result['priorities'] = models.Job.Priority.choices()
     default_priority = models.Job.get_field_dict()['priority'].default
     default_string = models.Job.Priority.get_string(default_priority)
     result['default_priority'] = default_string
     result['users'] = get_users(sort_by=['login'])
     result['labels'] = get_labels(sort_by=['-platform', 'name'])
     result['tests'] = get_tests(sort_by=['name'])
     result['profilers'] = get_profilers(sort_by=['name'])
     result['user_login'] = thread_local.get_user().login
     result['host_statuses'] = sorted(models.Host.Status.names)
     result['job_statuses'] = sorted(models.Job.Status.names)
     result['job_timeout_default'] = global_config.global_config.get_config_value(
         'AUTOTEST_WEB', 'job_timeout_default')

     result['status_dictionary'] = {"Abort": "Abort",
                                    "Aborted": "Aborted",
                                    "Verifying": "Verifying Host",
                                    "Pending": "Waiting on other hosts",
                                    "Running": "Running autoserv",
                                    "Completed": "Autoserv completed",
                                    "Failed": "Failed to complete",
                                    "Aborting": "Abort in progress",
                                    "Queued": "Queued",
                                    "Starting": "Next in host's queue"}
     return result
	"""\
	Functions to expose over the RPC interface.

	For all modify* and delete* functions that ask for an 'id' parameter to
	identify the object to operate on, the id may be either
	* the database row ID
	* the name of the object (label name, hostname, user login, etc.)
	* a dictionary containing uniquely identifying field (this option should seldom
	be used)

	When specifying foreign key fields (i.e. adding hosts to a label, or adding
	users to an ACL group), the given value may be either the database row ID or the
	name of the object.

	All get* functions return lists of dictionaries. Each dictionary represents one
	object and maps field names to values.

	Some examples:
	modify_host(2, hostname='myhost') # modify hostname of host with database ID 2
	modify_host('ipaj2', hostname='myhost') # modify hostname of host 'ipaj2'
	modify_test('sleeptest', test_type='Client', params=', seconds=60')
	delete_acl_group(1) # delete by ID
	delete_acl_group('Everyone') # delete by name
	acl_group_add_users('Everyone', ['mbligh', 'showard'])
	get_jobs(owner='showard', status='Queued')

	See doctests/rpc_test.txt for (lots) more examples.
	"""

	__author__ = 'showard@google.com (Steve Howard)'

	from frontend import thread_local
	from frontend.afe import models, model_logic, control_file, rpc_utils
	from autotest_lib.client.common_lib import global_config


	# labels

	def add_label(name, kernel_config=None, platform=None, only_if_needed=None):
	return models.Label.add_object(name=name, kernel_config=kernel_config,
	platform=platform,
	only_if_needed=only_if_needed).id


	def modify_label(id, **data):
	models.Label.smart_get(id).update_object(data)


	def delete_label(id):
	models.Label.smart_get(id).delete()


	def label_add_hosts(id, hosts):
	host_objs = [models.Host.smart_get(host) for host in hosts]
	models.Label.smart_get(id).host_set.add(*host_objs)


	def label_remove_hosts(id, hosts):
	host_objs = [models.Host.smart_get(host) for host in hosts]
	models.Label.smart_get(id).host_set.remove(*host_objs)


	def get_labels(**filter_data):
	return rpc_utils.prepare_for_serialization(
	models.Label.list_objects(filter_data))


	# hosts

	def add_host(hostname, status=None, locked=None, protection=None):
	return models.Host.add_object(hostname=hostname, status=status,
	locked=locked, protection=protection).id


	def modify_host(id, **data):
	models.Host.smart_get(id).update_object(data)


	def host_add_labels(id, labels):
	labels = [models.Label.smart_get(label) for label in labels]
	models.Host.smart_get(id).labels.add(*labels)


	def host_remove_labels(id, labels):
	labels = [models.Label.smart_get(label) for label in labels]
	models.Host.smart_get(id).labels.remove(*labels)


	def delete_host(id):
	models.Host.smart_get(id).delete()


	def get_hosts(multiple_labels=[], **filter_data):
	"""\
	multiple_labels: match hosts in all of the labels given. Should be a
	list of label names.
	"""
	filter_data['extra_args'] = (
	rpc_utils.extra_host_filters(multiple_labels))
	hosts = models.Host.list_objects(filter_data)
	for host in hosts:
	host_obj = models.Host.objects.get(id=host['id'])
	host['labels'] = [label.name
	for label in host_obj.labels.all()]
	platform = host_obj.platform()
	host['platform'] = platform and platform.name or None
	return rpc_utils.prepare_for_serialization(hosts)


	def get_num_hosts(multiple_labels=[], **filter_data):
	filter_data['extra_args'] = (
	rpc_utils.extra_host_filters(multiple_labels))
	return models.Host.query_count(filter_data)


	# tests

	def add_test(name, test_type, path, author=None, dependencies=None,
	experimental=True, run_verify=None, test_class=None,
	test_time=None, test_category=None, description=None,
	sync_count=1):
	return models.Test.add_object(name=name, test_type=test_type, path=path,
	author=author, dependencies=dependencies,
	experimental=experimental,
	run_verify=run_verify, test_time=test_time,
	test_category=test_category,
	sync_count=sync_count,
	test_class=test_class,
	description=description).id


	def modify_test(id, **data):
	models.Test.smart_get(id).update_object(data)


	def delete_test(id):
	models.Test.smart_get(id).delete()


	def get_tests(**filter_data):
	return rpc_utils.prepare_for_serialization(
	models.Test.list_objects(filter_data))


	# profilers

	def add_profiler(name, description=None):
	return models.Profiler.add_object(name=name, description=description).id


	def modify_profiler(id, **data):
	models.Profiler.smart_get(id).update_object(data)


	def delete_profiler(id):
	models.Profiler.smart_get(id).delete()


	def get_profilers(**filter_data):
	return rpc_utils.prepare_for_serialization(
	models.Profiler.list_objects(filter_data))


	# users

	def add_user(login, access_level=None):
	return models.User.add_object(login=login, access_level=access_level).id


	def modify_user(id, **data):
	models.User.smart_get(id).update_object(data)


	def delete_user(id):
	models.User.smart_get(id).delete()


	def get_users(**filter_data):
	return rpc_utils.prepare_for_serialization(
	models.User.list_objects(filter_data))


	# acl groups

	def add_acl_group(name, description=None):
	group = models.AclGroup.add_object(name=name, description=description)
	group.users.add(thread_local.get_user())
	return group.id


	def modify_acl_group(id, **data):
	group = models.AclGroup.smart_get(id)
	group.check_for_acl_violation_acl_group()
	group.update_object(data)
	group.add_current_user_if_empty()


	def acl_group_add_users(id, users):
	group = models.AclGroup.smart_get(id)
	group.check_for_acl_violation_acl_group()
	users = [models.User.smart_get(user) for user in users]
	group.users.add(*users)


	def acl_group_remove_users(id, users):
	group = models.AclGroup.smart_get(id)
	group.check_for_acl_violation_acl_group()
	users = [models.User.smart_get(user) for user in users]
	group.users.remove(*users)
	group.add_current_user_if_empty()


	def acl_group_add_hosts(id, hosts):
	group = models.AclGroup.smart_get(id)
	group.check_for_acl_violation_acl_group()
	hosts = [models.Host.smart_get(host) for host in hosts]
	group.hosts.add(*hosts)
	group.on_host_membership_change()


	def acl_group_remove_hosts(id, hosts):
	group = models.AclGroup.smart_get(id)
	group.check_for_acl_violation_acl_group()
	hosts = [models.Host.smart_get(host) for host in hosts]
	group.hosts.remove(*hosts)
	group.on_host_membership_change()


	def delete_acl_group(id):
	models.AclGroup.smart_get(id).delete()


	def get_acl_groups(**filter_data):
	acl_groups = models.AclGroup.list_objects(filter_data)
	for acl_group in acl_groups:
	acl_group_obj = models.AclGroup.objects.get(id=acl_group['id'])
	acl_group['users'] = [user.login
	for user in acl_group_obj.users.all()]
	acl_group['hosts'] = [host.hostname
	for host in acl_group_obj.hosts.all()]
	return rpc_utils.prepare_for_serialization(acl_groups)


	# jobs

	def generate_control_file(tests, kernel=None, label=None, profilers=[]):
	"""\
	Generates a client-side control file to load a kernel and run a set of
	tests. Returns a dict with the following keys:
	control_file - the control file text
	is_server - is the control file a server-side control file?
	is_synchronous - should the control file be run synchronously?
	dependencies - a list of the names of labels on which the job depends

	tests: list of tests to run
	kernel: kernel to install in generated control file
	label: name of label to grab kernel config from
	profilers: list of profilers to activate during the job
	"""
	if not tests:
	return dict(control_file='', is_server=False, is_synchronous=False,
	dependencies=[])

	cf_info, test_objects, profiler_objects, label = (
	rpc_utils.prepare_generate_control_file(tests, kernel, label,
	profilers))
	cf_info['control_file'] = control_file.generate_control(
	tests=test_objects, kernel=kernel, platform=label,
	profilers=profiler_objects, is_server=cf_info['is_server'])
	return cf_info


	def create_job(name, priority, control_file, control_type, timeout=None,
	is_synchronous=None, hosts=None, meta_hosts=None,
	run_verify=True, one_time_hosts=None, email_list='',
	dependencies=[]):
	"""\
	Create and enqueue a job.

	priority: Low, Medium, High, Urgent
	control_file: contents of control file
	control_type: type of control file, Client or Server
	is_synchronous: boolean indicating if a job is synchronous
	hosts: list of hosts to run job on
	meta_hosts: list where each entry is a label name, and for each entry
	one host will be chosen from that label to run the job
	on.
	timeout: hours until job times out
	email_list: string containing emails to mail when the job is done
	dependencies: list of label names on which this job depends
	"""

	if timeout is None:
	timeout=global_config.global_config.get_config_value(
	'AUTOTEST_WEB', 'job_timeout_default')

	owner = thread_local.get_user().login
	# input validation
	if not hosts and not meta_hosts and not one_time_hosts:
	raise model_logic.ValidationError({
	'arguments' : "You must pass at least one of 'hosts', "
	"'meta_hosts', or 'one_time_hosts'"
	})

	labels_by_name = dict((label.name, label)
	for label in models.Label.objects.all())

	# convert hostnames & meta hosts to host/label objects
	host_objects = []
	metahost_objects = []
	metahost_counts = {}
	for host in hosts or []:
	this_host = models.Host.smart_get(host)
	host_objects.append(this_host)
	for label in meta_hosts or []:
	this_label = labels_by_name[label]
	metahost_objects.append(this_label)
	metahost_counts.setdefault(this_label, 0)
	metahost_counts[this_label] += 1
	for host in one_time_hosts or []:
	this_host = models.Host.create_one_time_host(host)
	host_objects.append(this_host)

	# check that each metahost request has enough hosts under the label
	for label, requested_count in metahost_counts.iteritems():
	available_count = label.host_set.count()
	if requested_count > available_count:
	error = ("You have requested %d %s's, but there are only %d."
	% (requested_count, label.name, available_count))
	raise model_logic.ValidationError({'meta_hosts' : error})

	# default is_synchronous to some appropriate value
	ControlType = models.Job.ControlType
	control_type = ControlType.get_value(control_type)
	if is_synchronous is None:
	is_synchronous = (control_type == ControlType.SERVER)
	# convert the synch flag to an actual type
	if is_synchronous:
	synch_type = models.Test.SynchType.SYNCHRONOUS
	else:
	synch_type = models.Test.SynchType.ASYNCHRONOUS

	rpc_utils.check_job_dependencies(host_objects, dependencies)
	dependency_labels = [labels_by_name[label_name]
	for label_name in dependencies]

	job = models.Job.create(owner=owner, name=name, priority=priority,
	control_file=control_file,
	control_type=control_type,
	synch_type=synch_type,
	hosts=host_objects + metahost_objects,
	timeout=timeout,
	run_verify=run_verify,
	email_list=email_list.strip(),
	dependencies=dependency_labels)
	job.queue(host_objects + metahost_objects)
	return job.id


	def abort_job(id):
	"""\
	Abort the job with the given id number.

	TODO: this method is deprecated in favor of abort_jobs(). We need
	to eventually remove this rpc call entirely.
	"""
	job = models.Job.objects.get(id=id)
	job.abort()


	def abort_jobs(job_ids):
	"""\
	Abort a list of jobs.
	"""
	for job in models.Job.objects.in_bulk(job_ids).values():
	job.abort()


	def get_jobs(not_yet_run=False, running=False, finished=False, **filter_data):
	"""\
	Extra filter args for get_jobs:
	-not_yet_run: Include only jobs that have not yet started running.
	-running: Include only jobs that have start running but for which not
	all hosts have completed.
	-finished: Include only jobs for which all hosts have completed (or
	aborted).
	At most one of these three fields should be specified.
	"""
	filter_data['extra_args'] = rpc_utils.extra_job_filters(not_yet_run,
	running,
	finished)
	jobs = models.Job.list_objects(filter_data)
	models.Job.objects.populate_dependencies(jobs)
	return rpc_utils.prepare_for_serialization(jobs)


	def get_num_jobs(not_yet_run=False, running=False, finished=False,
	**filter_data):
	"""\
	See get_jobs() for documentation of extra filter parameters.
	"""
	filter_data['extra_args'] = rpc_utils.extra_job_filters(not_yet_run,
	running,
	finished)
	return models.Job.query_count(filter_data)


	def get_jobs_summary(**filter_data):
	"""\
	Like get_jobs(), but adds a 'status_counts' field, which is a dictionary
	mapping status strings to the number of hosts currently with that
	status, i.e. {'Queued' : 4, 'Running' : 2}.
	"""
	jobs = get_jobs(**filter_data)
	ids = [job['id'] for job in jobs]
	all_status_counts = models.Job.objects.get_status_counts(ids)
	for job in jobs:
	job['status_counts'] = all_status_counts[job['id']]
	return rpc_utils.prepare_for_serialization(jobs)


	def get_info_for_clone(id, preserve_metahosts):
	"""\
	Retrieves all the information needed to clone a job.
	"""
	info = {}
	job = models.Job.objects.get(id=id)
	query = job.hostqueueentry_set.filter(deleted=False)

	hosts = []
	meta_hosts = []

	# For each queue entry, if the entry contains a host, add the entry into the
	# hosts list if either:
	# It is not a metahost.
	# It was an assigned metahost, and the user wants to keep the specific
	# assignments.
	# Otherwise, add the metahost to the metahosts list.
	for queue_entry in query:
	if (queue_entry.host and (preserve_metahosts
	or not queue_entry.meta_host)):
	hosts.append(queue_entry.host)
	else:
	meta_hosts.append(queue_entry.meta_host.name)

	host_dicts = []

	for host in hosts:
	# one-time host
	if host.invalid:
	host_dict = {}
	host_dict['hostname'] = host.hostname
	host_dict['id'] = host.id
	host_dict['platform'] = '(one-time host)'
	host_dict['locked_text'] = ''
	else:
	host_dict = get_hosts(id=host.id)[0]
	other_labels = host_dict['labels']
	if host_dict['platform']:
	other_labels.remove(host_dict['platform'])
	host_dict['other_labels'] = ', '.join(other_labels)
	host_dicts.append(host_dict)

	meta_host_counts = {}
	for meta_host in meta_hosts:
	meta_host_counts.setdefault(meta_host, 0)
	meta_host_counts[meta_host] += 1

	info['job'] = job.get_object_dict()
	info['meta_host_counts'] = meta_host_counts
	info['hosts'] = host_dicts

	return rpc_utils.prepare_for_serialization(info)


	# host queue entries

	def get_host_queue_entries(**filter_data):
	"""\
	TODO
	"""
	query = models.HostQueueEntry.query_objects(filter_data)
	all_dicts = []
	for queue_entry in query.select_related():
	entry_dict = queue_entry.get_object_dict()
	if entry_dict['host'] is not None:
	entry_dict['host'] = queue_entry.host.get_object_dict()
	entry_dict['job'] = queue_entry.job.get_object_dict()
	all_dicts.append(entry_dict)
	return rpc_utils.prepare_for_serialization(all_dicts)


	def get_num_host_queue_entries(**filter_data):
	"""\
	Get the number of host queue entries associated with this job.
	"""
	return models.HostQueueEntry.query_count(filter_data)


	def get_hqe_percentage_complete(**filter_data):
	"""
	Computes the percentage of host queue entries matching the given filter data
	that are complete.
	"""
	query = models.HostQueueEntry.query_objects(filter_data)
	complete_count = query.filter(complete=True).count()
	total_count = query.count()
	if total_count == 0:
	return 1
	return float(complete_count) / total_count


	# other

	def echo(data=""):
	"""\
	Returns a passed in string. For doing a basic test to see if RPC calls
	can successfully be made.
	"""
	return data


	def get_static_data():
	"""\
	Returns a dictionary containing a bunch of data that shouldn't change
	often and is otherwise inaccessible. This includes:
	priorities: list of job priority choices
	default_priority: default priority value for new jobs
	users: sorted list of all users
	labels: sorted list of all labels
	tests: sorted list of all tests
	profilers: sorted list of all profilers
	user_login: logged-in username
	host_statuses: sorted list of possible Host statuses
	job_statuses: sorted list of possible HostQueueEntry statuses
	"""
	result = {}
	result['priorities'] = models.Job.Priority.choices()
	default_priority = models.Job.get_field_dict()['priority'].default
	default_string = models.Job.Priority.get_string(default_priority)
	result['default_priority'] = default_string
	result['users'] = get_users(sort_by=['login'])
	result['labels'] = get_labels(sort_by=['-platform', 'name'])
	result['tests'] = get_tests(sort_by=['name'])
	result['profilers'] = get_profilers(sort_by=['name'])
	result['user_login'] = thread_local.get_user().login
	result['host_statuses'] = sorted(models.Host.Status.names)
	result['job_statuses'] = sorted(models.Job.Status.names)
	result['job_timeout_default'] = global_config.global_config.get_config_value(
	'AUTOTEST_WEB', 'job_timeout_default')

	result['status_dictionary'] = {"Abort": "Abort",
	"Aborted": "Aborted",
	"Verifying": "Verifying Host",
	"Pending": "Waiting on other hosts",
	"Running": "Running autoserv",
	"Completed": "Autoserv completed",
	"Failed": "Failed to complete",
	"Aborting": "Abort in progress",
	"Queued": "Queued",
	"Starting": "Next in host's queue"}
	return result