diff --git a/lib/ansible/modules/cloud/amazon/ec2_asg.py b/lib/ansible/modules/cloud/amazon/ec2_asg.py index 7a6d2043e0f..845945e6ad9 100644 --- a/lib/ansible/modules/cloud/amazon/ec2_asg.py +++ b/lib/ansible/modules/cloud/amazon/ec2_asg.py @@ -190,9 +190,13 @@ to "replace_instances": ''' import time +import logging as log from ansible.module_utils.basic import * from ansible.module_utils.ec2 import * +log.getLogger('boto').setLevel(log.CRITICAL) +#log.basicConfig(filename='/tmp/ansible_ec2_asg.log',level=log.DEBUG, format='%(asctime)s: %(message)s', datefmt='%m/%d/%Y %I:%M:%S %p') + try: import boto.ec2.autoscale @@ -265,8 +269,71 @@ def get_properties(autoscaling_group): if getattr(autoscaling_group, "tags", None): properties['tags'] = dict((t.key, t.value) for t in autoscaling_group.tags) + return properties +def elb_dreg(asg_connection, module, group_name, instance_id): + region, ec2_url, aws_connect_params = get_aws_connection_info(module) + as_group = asg_connection.get_all_groups(names=[group_name])[0] + wait_timeout = module.params.get('wait_timeout') + props = get_properties(as_group) + count = 1 + if as_group.load_balancers and as_group.health_check_type == 'ELB': + try: + elb_connection = connect_to_aws(boto.ec2.elb, region, **aws_connect_params) + except boto.exception.NoAuthHandlerFound, e: + module.fail_json(msg=str(e)) + else: + return + + exists = True + for lb in as_group.load_balancers: + elb_connection.deregister_instances(lb, instance_id) + log.debug("De-registering {0} from ELB {1}".format(instance_id, lb)) + + wait_timeout = time.time() + wait_timeout + while wait_timeout > time.time() and count > 0: + count = 0 + for lb in as_group.load_balancers: + lb_instances = elb_connection.describe_instance_health(lb) + for i in lb_instances: + if i.instance_id == instance_id and i.state == "InService": + count += 1 + log.debug("{0}: {1}, {2}".format(i.instance_id, i.state, i.description)) + time.sleep(10) + + if wait_timeout <= time.time(): + # waiting took too long + module.fail_json(msg = "Waited too long for instance to deregister. {0}".format(time.asctime())) + + + + +def elb_healthy(asg_connection, elb_connection, module, group_name): + healthy_instances = [] + as_group = asg_connection.get_all_groups(names=[group_name])[0] + props = get_properties(as_group) + # get healthy, inservice instances from ASG + instances = [] + for instance, settings in props['instance_facts'].items(): + if settings['lifecycle_state'] == 'InService' and settings['health_status'] == 'Healthy': + instances.append(instance) + log.debug("ASG considers the following instances InService and Healthy: {0}".format(instances)) + log.debug("ELB instance status:") + for lb in as_group.load_balancers: + # we catch a race condition that sometimes happens if the instance exists in the ASG + # but has not yet show up in the ELB + try: + lb_instances = elb_connection.describe_instance_health(lb, instances=instances) + except boto.exception.InvalidInstance, e: + pass + for i in lb_instances: + if i.state == "InService": + healthy_instances.append(i.instance_id) + log.debug("{0}: {1}".format(i.instance_id, i.state)) + return len(healthy_instances) + + def wait_for_elb(asg_connection, module, group_name): region, ec2_url, aws_connect_params = get_aws_connection_info(module) @@ -277,36 +344,23 @@ def wait_for_elb(asg_connection, module, group_name): as_group = asg_connection.get_all_groups(names=[group_name])[0] if as_group.load_balancers and as_group.health_check_type == 'ELB': + log.debug("Waiting for ELB to consider intances healthy.") try: elb_connection = connect_to_aws(boto.ec2.elb, region, **aws_connect_params) except boto.exception.NoAuthHandlerFound, e: module.fail_json(msg=str(e)) wait_timeout = time.time() + wait_timeout - healthy_instances = {} + healthy_instances = elb_healthy(asg_connection, elb_connection, module, group_name) - while len(healthy_instances.keys()) < as_group.min_size and wait_timeout > time.time(): - as_group = asg_connection.get_all_groups(names=[group_name])[0] - props = get_properties(as_group) - # get healthy, inservice instances from ASG - instances = [] - for instance, settings in props['instance_facts'].items(): - if settings['lifecycle_state'] == 'InService' and settings['health_status'] == 'Healthy': - instances.append(instance) - for lb in as_group.load_balancers: - # we catch a race condition that sometimes happens if the instance exists in the ASG - # but has not yet show up in the ELB - try: - lb_instances = elb_connection.describe_instance_health(lb, instances=instances) - except boto.exception.InvalidInstance, e: - pass - for i in lb_instances: - if i.state == "InService": - healthy_instances[i.instance_id] = i.state + while healthy_instances < as_group.min_size and wait_timeout > time.time(): + healthy_instances = elb_healthy(asg_connection, elb_connection, module, group_name) + log.debug("ELB thinks {0} instances are healthy.".format(healthy_instances)) time.sleep(10) if wait_timeout <= time.time(): # waiting took too long module.fail_json(msg = "Waited too long for ELB instances to be healthy. %s" % time.asctime()) + log.debug("Waiting complete. ELB thinks {0} instances are healthy.".format(healthy_instances)) def create_autoscaling_group(connection, module): group_name = module.params.get('name') @@ -364,7 +418,7 @@ def create_autoscaling_group(connection, module): try: connection.create_auto_scaling_group(ag) if wait_for_instances == True: - wait_for_new_instances(module, connection, group_name, wait_timeout, desired_capacity, 'viable_instances') + wait_for_new_inst(module, connection, group_name, wait_timeout, desired_capacity, 'viable_instances') wait_for_elb(connection, module, group_name) as_group = connection.get_all_groups(names=[group_name])[0] asg_properties = get_properties(as_group) @@ -430,7 +484,7 @@ def create_autoscaling_group(connection, module): module.fail_json(msg=str(e)) if wait_for_instances == True: - wait_for_new_instances(module, connection, group_name, wait_timeout, desired_capacity, 'viable_instances') + wait_for_new_inst(module, connection, group_name, wait_timeout, desired_capacity, 'viable_instances') wait_for_elb(connection, module, group_name) try: as_group = connection.get_all_groups(names=[group_name])[0] @@ -471,6 +525,15 @@ def get_chunks(l, n): for i in xrange(0, len(l), n): yield l[i:i+n] +def update_size(group, max_size, min_size, dc): + + log.debug("setting ASG sizes") + log.debug("minimum size: {0}, desired_capacity: {1}, max size: {2}".format(min_size, dc, max_size )) + group.max_size = max_size + group.min_size = min_size + group.desired_capacity = dc + group.update() + def replace(connection, module): batch_size = module.params.get('replace_batch_size') wait_timeout = module.params.get('wait_timeout') @@ -478,91 +541,191 @@ def replace(connection, module): max_size = module.params.get('max_size') min_size = module.params.get('min_size') desired_capacity = module.params.get('desired_capacity') - - # FIXME: we need some more docs about this feature + lc_check = module.params.get('lc_check') replace_instances = module.params.get('replace_instances') as_group = connection.get_all_groups(names=[group_name])[0] - wait_for_new_instances(module, connection, group_name, wait_timeout, as_group.min_size, 'viable_instances') + wait_for_new_inst(module, connection, group_name, wait_timeout, as_group.min_size, 'viable_instances') props = get_properties(as_group) instances = props['instances'] - replaceable = 0 if replace_instances: instances = replace_instances - for k in props['instance_facts'].keys(): - if k in instances: - if props['instance_facts'][k]['launch_config_name'] != props['launch_config_name']: - replaceable += 1 - if replaceable == 0: + # check to see if instances are replaceable if checking launch configs + + new_instances, old_instances = get_instances_by_lc(props, lc_check, instances) + num_new_inst_needed = desired_capacity - len(new_instances) + + if lc_check: + if num_new_inst_needed == 0 and old_instances: + log.debug("No new instances needed, but old instances are present. Removing old instances") + terminate_batch(connection, module, old_instances, instances, True) + as_group = connection.get_all_groups(names=[group_name])[0] + props = get_properties(as_group) + changed = True + return(changed, props) + + # we don't want to spin up extra instances if not necessary + if num_new_inst_needed < batch_size: + log.debug("Overriding batch size to {0}".format(num_new_inst_needed)) + batch_size = num_new_inst_needed + + if not old_instances: changed = False return(changed, props) # set temporary settings and wait for them to be reached + # This should get overriden if the number of instances left is less than the batch size. + as_group = connection.get_all_groups(names=[group_name])[0] - as_group.max_size = max_size + batch_size - as_group.min_size = min_size + batch_size - as_group.desired_capacity = desired_capacity + batch_size - as_group.update() - wait_for_new_instances(module, connection, group_name, wait_timeout, as_group.min_size, 'viable_instances') + update_size(as_group, max_size + batch_size, min_size + batch_size, desired_capacity + batch_size) + wait_for_new_inst(module, connection, group_name, wait_timeout, as_group.min_size, 'viable_instances') wait_for_elb(connection, module, group_name) as_group = connection.get_all_groups(names=[group_name])[0] props = get_properties(as_group) instances = props['instances'] if replace_instances: instances = replace_instances + log.debug("beginning main loop") for i in get_chunks(instances, batch_size): - terminate_batch(connection, module, i) - wait_for_new_instances(module, connection, group_name, wait_timeout, as_group.min_size, 'viable_instances') + # break out of this loop if we have enough new instances + break_early, desired_size, term_instances = terminate_batch(connection, module, i, instances, False) + wait_for_term_inst(connection, module, term_instances) + wait_for_new_inst(module, connection, group_name, wait_timeout, desired_size, 'viable_instances') wait_for_elb(connection, module, group_name) as_group = connection.get_all_groups(names=[group_name])[0] - # return settings to normal - as_group.max_size = max_size - as_group.min_size = min_size - as_group.desired_capacity = desired_capacity - as_group.update() + if break_early: + log.debug("breaking loop") + break + update_size(as_group, max_size, min_size, desired_capacity) as_group = connection.get_all_groups(names=[group_name])[0] asg_properties = get_properties(as_group) + log.debug("Rolling update complete.") changed=True return(changed, asg_properties) -def terminate_batch(connection, module, replace_instances): - group_name = module.params.get('name') - wait_timeout = int(module.params.get('wait_timeout')) - lc_check = module.params.get('lc_check') - - as_group = connection.get_all_groups(names=[group_name])[0] - props = get_properties(as_group) +def get_instances_by_lc(props, lc_check, initial_instances): - # check to make sure instances given are actually in the given ASG - # and they have a non-current launch config + new_instances = [] old_instances = [] + # old instances are those that have the old launch config + if lc_check: + for i in props['instances']: + if props['instance_facts'][i]['launch_config_name'] == props['launch_config_name']: + new_instances.append(i) + else: + old_instances.append(i) + + else: + log.debug("Comparing initial instances with current: {0}".format(initial_instances)) + for i in props['instances']: + if i not in initial_instances: + new_instances.append(i) + else: + old_instances.append(i) + log.debug("New instances: {0}, {1}".format(len(new_instances), new_instances)) + log.debug("Old instances: {0}, {1}".format(len(old_instances), old_instances)) + + return new_instances, old_instances + + +def list_purgeable_instances(props, lc_check, replace_instances, initial_instances): + instances_to_terminate = [] instances = ( inst_id for inst_id in replace_instances if inst_id in props['instances']) + # check to make sure instances given are actually in the given ASG + # and they have a non-current launch config if lc_check: for i in instances: if props['instance_facts'][i]['launch_config_name'] != props['launch_config_name']: - old_instances.append(i) + instances_to_terminate.append(i) else: - old_instances = instances + for i in instances: + if i in initial_instances: + instances_to_terminate.append(i) + return instances_to_terminate - # set all instances given to unhealthy - for instance_id in old_instances: - connection.set_instance_health(instance_id,'Unhealthy') +def terminate_batch(connection, module, replace_instances, initial_instances, leftovers=False): + batch_size = module.params.get('replace_batch_size') + min_size = module.params.get('min_size') + desired_capacity = module.params.get('desired_capacity') + group_name = module.params.get('name') + wait_timeout = int(module.params.get('wait_timeout')) + lc_check = module.params.get('lc_check') + decrement_capacity = False + break_loop = False + + as_group = connection.get_all_groups(names=[group_name])[0] + props = get_properties(as_group) + desired_size = as_group.min_size + + new_instances, old_instances = get_instances_by_lc(props, lc_check, initial_instances) + num_new_inst_needed = desired_capacity - len(new_instances) + + # check to make sure instances given are actually in the given ASG + # and they have a non-current launch config + instances_to_terminate = list_purgeable_instances(props, lc_check, replace_instances, initial_instances) + + log.debug("new instances needed: {0}".format(num_new_inst_needed)) + log.debug("new instances: {0}".format(new_instances)) + log.debug("old instances: {0}".format(old_instances)) + log.debug("batch instances: {0}".format(",".join(instances_to_terminate))) + + if num_new_inst_needed == 0: + decrement_capacity = True + if as_group.min_size != min_size: + as_group.min_size = min_size + as_group.update() + log.debug("Updating minimum size back to original of {0}".format(min_size)) + #if are some leftover old instances, but we are already at capacity with new ones + # we don't want to decrement capacity + if leftovers: + decrement_capacity = False + break_loop = True + instances_to_terminate = old_instances + desired_size = min_size + log.debug("No new instances needed") + + if num_new_inst_needed < batch_size and num_new_inst_needed !=0 : + instances_to_terminate = instances_to_terminate[:num_new_inst_needed] + decrement_capacity = False + break_loop = False + log.debug("{0} new instances needed".format(num_new_inst_needed)) + + log.debug("decrementing capacity: {0}".format(decrement_capacity)) + + for instance_id in instances_to_terminate: + elb_dreg(connection, module, group_name, instance_id) + log.debug("terminating instance: {0}".format(instance_id)) + connection.terminate_instance(instance_id, decrement_capacity=decrement_capacity) # we wait to make sure the machines we marked as Unhealthy are # no longer in the list + return break_loop, desired_size, instances_to_terminate + + +def wait_for_term_inst(connection, module, term_instances): + + batch_size = module.params.get('replace_batch_size') + wait_timeout = module.params.get('wait_timeout') + group_name = module.params.get('name') + lc_check = module.params.get('lc_check') + as_group = connection.get_all_groups(names=[group_name])[0] + props = get_properties(as_group) count = 1 wait_timeout = time.time() + wait_timeout while wait_timeout > time.time() and count > 0: + log.debug("waiting for instances to terminate") count = 0 as_group = connection.get_all_groups(names=[group_name])[0] props = get_properties(as_group) instance_facts = props['instance_facts'] - instances = ( i for i in instance_facts if i in old_instances) + instances = ( i for i in instance_facts if i in term_instances) for i in instances: - if ( instance_facts[i]['lifecycle_state'] == 'Terminating' - or instance_facts[i]['health_status'] == 'Unhealthy' ): + lifecycle = instance_facts[i]['lifecycle_state'] + health = instance_facts[i]['health_status'] + log.debug("Instance {0} has state of {1},{2}".format(i,lifecycle,health )) + if lifecycle == 'Terminating' or healthy == 'Unhealthy': count += 1 time.sleep(10) @@ -570,21 +733,24 @@ def terminate_batch(connection, module, replace_instances): # waiting took too long module.fail_json(msg = "Waited too long for old instances to terminate. %s" % time.asctime()) -def wait_for_new_instances(module, connection, group_name, wait_timeout, desired_size, prop): + +def wait_for_new_inst(module, connection, group_name, wait_timeout, desired_size, prop): # make sure we have the latest stats after that last loop. as_group = connection.get_all_groups(names=[group_name])[0] props = get_properties(as_group) + log.debug("Waiting for {0} = {1}, currently {2}".format(prop, desired_size, props[prop])) # now we make sure that we have enough instances in a viable state wait_timeout = time.time() + wait_timeout while wait_timeout > time.time() and desired_size > props[prop]: + log.debug("Waiting for {0} = {1}, currently {2}".format(prop, desired_size, props[prop])) time.sleep(10) as_group = connection.get_all_groups(names=[group_name])[0] props = get_properties(as_group) if wait_timeout <= time.time(): # waiting took too long module.fail_json(msg = "Waited too long for new instances to become viable. %s" % time.asctime()) - + log.debug("Reached {0}: {1}".format(prop, desired_size)) return props def main():