def test_decommissioning_working_node(self):
        self.start_redpanda(num_nodes=4)
        topics = []
        for partition_count in range(1, 5):
            for replication_factor in (3, 3):
                name = f"topic{len(topics)}"
                spec = TopicSpec(name=name,
                                 partition_count=partition_count,
                                 replication_factor=replication_factor)
                topics.append(spec)

        for spec in topics:
            self.client().create_topic(spec)
            self.topic = spec.name

        self.start_producer(1)
        self.start_consumer(1)
        self.await_startup()
        admin = Admin(self.redpanda)

        brokers = admin.get_brokers()
        to_decommission = random.choice(brokers)
        self.logger.info(f"decommissioning node: {to_decommission}", )
        admin.decommission_broker(to_decommission['node_id'])

        def node_removed():
            brokers = admin.get_brokers()
            for b in brokers:
                if b['node_id'] == to_decommission['node_id']:
                    return False
            return True

        wait_until(node_removed, timeout_sec=120, backoff_sec=2)

        self.run_validation(enable_idempotence=False, consumer_timeout_sec=45)
예제 #2
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        def decommission(node_id):
            self.logger.info(f"decommissioning node: {node_id}")
            admin = Admin(self.redpanda)
            admin.decommission_broker(id=node_id)

            def node_removed():
                admin = Admin(self.redpanda)
                brokers = admin.get_brokers()
                for b in brokers:
                    if b['node_id'] == node_id:
                        return False
                return True

            wait_until(node_removed, timeout_sec=240, backoff_sec=2)
예제 #3
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    def test_decommissioning_working_node(self):
        self.start_redpanda(num_nodes=4)
        topics = []
        for partition_count in range(1, 5):
            for replication_factor in (3, 3):
                name = f"topic{len(topics)}"
                spec = TopicSpec(name=name,
                                 partition_count=partition_count,
                                 replication_factor=replication_factor)
                topics.append(spec)

        for spec in topics:
            self.client().create_topic(spec)
            self.topic = spec.name

        self.start_producer(1)
        self.start_consumer(1)
        self.await_startup()
        admin = Admin(self.redpanda)

        brokers = admin.get_brokers()
        to_decommission = random.choice(brokers)
        self.logger.info(f"decommissioning node: {to_decommission}", )
        admin.decommission_broker(to_decommission['node_id'])

        # A node which isn't being decommed, to use when calling into
        # the admin API from this point onwards.
        survivor_node = [
            n for n in self.redpanda.nodes
            if self.redpanda.idx(n) != to_decommission['node_id']
        ][0]
        self.logger.info(
            f"Using survivor node {survivor_node.name} {self.redpanda.idx(survivor_node)}"
        )

        def node_removed():
            brokers = admin.get_brokers(node=survivor_node)
            for b in brokers:
                if b['node_id'] == to_decommission['node_id']:
                    return False
            return True

        wait_until(node_removed, timeout_sec=120, backoff_sec=2)

        self.run_validation(enable_idempotence=False, consumer_timeout_sec=45)
예제 #4
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            def decommissioned():
                try:
                    admin = Admin(self.redpanda)
                    # if broker is already draining, it is suceess
                    brokers = admin.get_brokers()
                    for b in brokers:
                        if b['node_id'] == node_id and b[
                                'membership_status'] == 'draining':
                            return True

                    r = admin.decommission_broker(id=node_id)
                    return r.status_code == 200
                except requests.exceptions.RetryError:
                    return False
                except requests.exceptions.ConnectionError:
                    return False
                except requests.exceptions.HTTPError:
                    return False