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path: root/docker/storperf-master/storperf/storperf_master.py
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##############################################################################
# Copyright (c) 2016 EMC and others.
#
# All rights reserved. This program and the accompanying materials
# are made available under the terms of the Apache License, Version 2.0
# which accompanies this distribution, and is available at
# http://www.apache.org/licenses/LICENSE-2.0
##############################################################################

from datetime import datetime
import logging
import os
import socket
from threading import Thread
from time import sleep

import paramiko
from scp import SCPClient

from snaps.config.stack import StackConfig
from snaps.openstack.create_stack import OpenStackHeatStack
from snaps.openstack.os_credentials import OSCreds
from snaps.openstack.utils import heat_utils, cinder_utils, glance_utils
from snaps.thread_utils import worker_pool
from storperf.db.job_db import JobDB
from storperf.test_executor import TestExecutor
import json


class ParameterError(Exception):
    """ """


class StorPerfMaster(object):

    def __init__(self):
        self.logger = logging.getLogger(__name__)

        self.job_db = JobDB()

        self.stack_settings = StackConfig(
            name='StorPerfAgentGroup',
            template_path='storperf/resources/hot/agent-group.yaml')

        self.os_creds = OSCreds(
            username=os.environ.get('OS_USERNAME'),
            password=os.environ.get('OS_PASSWORD'),
            auth_url=os.environ.get('OS_AUTH_URL'),
            identity_api_version=os.environ.get('OS_IDENTITY_API_VERSION'),
            user_domain_name=os.environ.get('OS_USER_DOMAIN_NAME'),
            user_domain_id=os.environ.get('OS_USER_DOMAIN_ID'),
            region_name=os.environ.get('OS_REGION_NAME'),
            project_domain_name=os.environ.get('OS_PROJECT_DOMAIN_NAME'),
            project_domain_id=os.environ.get('OS_PROJECT_DOMAIN_ID'),
            project_name=os.environ.get('OS_PROJECT_NAME'))

        self.logger.debug("OSCreds: %s" % self.os_creds)

        self.heat_stack = OpenStackHeatStack(self.os_creds,
                                             self.stack_settings)
        self.username = None
        self.password = None
        self._test_executor = None
        self._agent_count = 1
        self._agent_image = "Ubuntu 14.04"
        self._agent_flavor = "storperf"
        self._availability_zone = None
        self._public_network = None
        self._volume_count = 1
        self._volume_size = 1
        self._volume_type = None
        self._cached_stack_id = None
        self._last_snaps_check_time = None
        self._slave_addresses = []
        self._thread_pool = worker_pool(20)
        self._filename = None
        self._deadline = None
        self._steady_state_samples = 10
        self._queue_depths = [1, 4, 8]
        self._block_sizes = [512, 4096, 16384]
        self._workload_modules = []
        self._custom_workloads = []
        self.slave_info = {}

    @property
    def volume_count(self):
        self._get_stack_info()
        return self._volume_count

    @volume_count.setter
    def volume_count(self, value):
        if (self.stack_id is not None):
            raise ParameterError(
                "ERROR: Cannot change volume count after stack is created")
        self._volume_count = value

    @property
    def volume_size(self):
        self._get_stack_info()
        return self._volume_size

    @volume_size.setter
    def volume_size(self, value):
        if (self.stack_id is not None):
            raise ParameterError(
                "ERROR: Cannot change volume size after stack is created")
        self._volume_size = value

    @property
    def volume_type(self):
        self._get_stack_info()
        return self._volume_type

    @volume_type.setter
    def volume_type(self, value):
        if (self.stack_id is not None):
            raise ParameterError(
                "ERROR: Cannot change volume type after stack is created")
        self._volume_type = value

    @property
    def agent_count(self):
        self._get_stack_info()
        return self._agent_count

    @agent_count.setter
    def agent_count(self, value):
        if (self.stack_id is not None):
            raise ParameterError(
                "ERROR: Cannot change agent count after stack is created")
        self._agent_count = value

    @property
    def agent_image(self):
        self._get_stack_info()
        return self._agent_image

    @agent_image.setter
    def agent_image(self, value):
        if (self.stack_id is not None):
            raise ParameterError(
                "ERROR: Cannot change agent image after stack is created")
        self._agent_image = value

    @property
    def public_network(self):
        self._get_stack_info()
        return self._public_network

    @public_network.setter
    def public_network(self, value):
        if (self.stack_id is not None):
            raise ParameterError(
                "ERROR: Cannot change public network after stack is created")
        self._public_network = value

    @property
    def agent_flavor(self):
        self._get_stack_info()
        return self._agent_flavor

    @agent_flavor.setter
    def agent_flavor(self, value):
        if (self.stack_id is not None):
            raise ParameterError(
                "ERROR: Cannot change flavor after stack is created")
        self._agent_flavor = value

    @property
    def slave_addresses(self):
        return self._slave_addresses

    @property
    def stack_id(self):
        self._get_stack_info()
        return self._cached_stack_id

    @stack_id.setter
    def stack_id(self, value):
        self._cached_stack_id = value

    def _get_stack_info(self):
        if self._last_snaps_check_time is not None:
            time_since_check = datetime.now() - self._last_snaps_check_time
            if time_since_check.total_seconds() < 60:
                return self._cached_stack_id

        self.heat_stack.initialize()

        if self.heat_stack.get_stack() is not None:
            self._cached_stack_id = self.heat_stack.get_stack().id
            cinder_cli = cinder_utils.cinder_client(self.os_creds)
            glance_cli = glance_utils.glance_client(self.os_creds)

            router_worker = self._thread_pool.apply_async(
                self.heat_stack.get_router_creators)

            vm_inst_creators = self.heat_stack.get_vm_inst_creators()
            self._agent_count = len(vm_inst_creators)
            vm1 = vm_inst_creators[0]
            self._availability_zone = \
                vm1.instance_settings.availability_zone
            self._agent_flavor = vm1.instance_settings.flavor.name

            self._slave_addresses = []
            for instance in vm_inst_creators:
                floating_ip = instance.get_floating_ip()
                self._slave_addresses.append(floating_ip.ip)
                self.logger.debug("Found VM at %s" % floating_ip.ip)

            server = vm1.get_vm_inst()

            image_worker = self._thread_pool.apply_async(
                glance_utils.get_image_by_id, (glance_cli, server.image_id))

            self._volume_count = len(server.volume_ids)
            if self._volume_count > 0:
                volume_id = server.volume_ids[0]['id']
                volume = cinder_utils.get_volume_by_id(
                    cinder_cli, volume_id)
                self.logger.debug("Volume id %s, size=%s, type=%s" %
                                  (volume.id,
                                   volume.size,
                                   volume.type))
                self._volume_size = volume.size
                self._volume_type = volume.type

            image = image_worker.get()
            self._agent_image = image.name

            router_creators = router_worker.get()
            router1 = router_creators[0]
            self._public_network = \
                router1.router_settings.external_gateway

            self._last_snaps_check_time = datetime.now()
        else:
            self._cached_stack_id = None

        return self._cached_stack_id

    @property
    def availability_zone(self):
        self._get_stack_info()
        return self._availability_zone

    @availability_zone.setter
    def availability_zone(self, value):
        if (self.stack_id is not None):
            raise ParameterError(
                "ERROR: Cannot change zone after stack is created")
        self._availability_zone = value

    @property
    def volume_quota(self):
        # (TODO) Use SNAPS equivalent for Volume Quotas
        pass

    @property
    def filename(self):
        return self._filename

    @filename.setter
    def filename(self, value):
        self._filename = value

    @property
    def deadline(self):
        return self._deadline

    @deadline.setter
    def deadline(self, value):
        self._deadline = value

    @property
    def steady_state_samples(self):
        return self._steady_state_samples

    @steady_state_samples.setter
    def steady_state_samples(self, value):
        self._steady_state_samples = value

    @property
    def queue_depths(self):
        return self._queue_depths

    @queue_depths.setter
    def queue_depths(self, value):
        self._queue_depths = value

    @property
    def block_sizes(self):
        return self._block_sizes

    @block_sizes.setter
    def block_sizes(self, value):
        self._block_sizes = value

    @property
    def workloads(self):
        return self._workload_modules

    @workloads.setter
    def workloads(self, value):
        executor = TestExecutor()
        executor.register_workloads(value)
        self._workload_modules = value

    @property
    def custom_workloads(self):
        return self._custom_workloads

    @custom_workloads.setter
    def custom_workloads(self, value):
        self.logger.info("Custom workloads = %s" % value)
        self._custom_workloads = value

    @property
    def is_stack_created(self):
        return (self.stack_id is not None and
                (self.heat_stack.get_status() == u'CREATE_COMPLETE' or
                 self.heat_stack.get_status() == u'UPDATE_COMPLETE'))

    def get_logs(self, lines=None):
        LOG_DIR = './storperf.log'

        if isinstance(lines, int):
            logs = []
            index = 0
            for line in reversed(open(LOG_DIR).readlines()):
                if index != int(lines):
                    logs.insert(0, line.strip())
                    index += 1
                else:
                    break
        else:
            with open(LOG_DIR) as f:
                logs = f.read().split('\n')
        return logs

    def create_stack(self):
        self.stack_settings.resource_files = [
            'storperf/resources/hot/storperf-agent.yaml',
            'storperf/resources/hot/storperf-volume.yaml']
        self.stack_settings.env_values = self._make_parameters()
        try:
            self.heat_stack.create(block=True)
        except Exception as e:
            self.logger.error("Stack creation failed")
            self.logger.exception(e)
            heat_cli = heat_utils.heat_client(self.os_creds)
            if self.heat_stack.get_stack() is not None:
                res = heat_utils.get_resources(heat_cli,
                                               self.heat_stack.get_stack().id)
                reason = ""
                failed = False
                for resource in res:
                    if resource.status == u'CREATE_FAILED':
                        failed = True
                        reason += "%s: %s " % (resource.name,
                                               resource.status_reason)
                    self.logger.error("%s - %s: %s" % (resource.name,
                                                       resource.status,
                                                       resource.status_reason))

                if failed:
                    try:
                        self.heat_stack.clean()
                    except Exception:
                        pass
                    raise Exception(reason)
            else:
                raise e

    def delete_stack(self):
        if self._test_executor is not None:
            self._test_executor.terminate()

        stack_id = None
        if (self.stack_id is not None):
            stack_id = self.stack_id
            try:
                self.heat_stack.clean()
            except Exception as e:
                self.logger.error("Stack creation failed")
                raise Exception(e)
            self.stack_id = None
        return stack_id

    def executor_event(self, executor):
        if executor.terminated:
            self._test_executor = None

    def execute_workloads(self, metadata={}):
        if (self._test_executor is not None and
                (not self._test_executor.terminated and
                 self._test_executor.job_id is not None)):
            raise Exception("ERROR: Job {} is already running".format(
                self._test_executor.job_id))

        if (self.stack_id is None):
            raise ParameterError("ERROR: Stack does not exist")

        self._test_executor = TestExecutor()
        self._test_executor.register(self.executor_event)
        self._test_executor.register_workloads(self._workload_modules)
        self._test_executor.custom_workloads = self.custom_workloads
        self._test_executor.block_sizes = self._block_sizes
        self._test_executor.filename = self._filename
        self._test_executor.deadline = self._deadline
        self._test_executor.steady_state_samples = self._steady_state_samples
        self._test_executor.queue_depths = self._queue_depths

        slaves = self._slave_addresses

        setup_threads = []

        for slave in slaves:
            t = Thread(target=self._setup_slave, args=(slave,))
            setup_threads.append(t)
            t.start()

        for thread in setup_threads:
            thread.join()

        self._test_executor.slaves = slaves
        self._test_executor.volume_count = self.volume_count

        params = metadata
        params['agent_count'] = self.agent_count
        params['public_network'] = self.public_network
        params['volume_count'] = self.volume_count
        params['volume_size'] = self.volume_size
        params['agent_info'] = json.dumps(self.slave_info)
        if self.volume_type is not None:
            params['volume_type'] = self.volume_type
        if self.username and self.password:
            params['username'] = self.username
            params['password'] = self.password
        job_id = self._test_executor.execute(params)
        self.slave_info = {}

        return job_id

    def terminate_workloads(self):
        if self._test_executor is not None:
            return self._test_executor.terminate()
        else:
            return True

    def fetch_results(self, job_id):
        if (self._test_executor is not None and
                self._test_executor.job_db.job_id == job_id):
            return self._test_executor.metadata['details']['metrics']

        workload_params = self.job_db.fetch_workload_params(job_id)
        if 'report' in workload_params:
            report = workload_params['report']
            return report['details']['metrics']
        return {}

    def fetch_metadata(self, job_id):
        return self.job_db.fetch_workload_params(job_id)

    def fetch_job_status(self, job_id):
        results = {}

        if (self._test_executor is not None and
                self._test_executor.job_id == job_id):
            results['Status'] = 'Running'
            results['Workloads'] = self._test_executor.workload_status
        else:
            jobs = self.job_db.fetch_jobs()
            for job in jobs:
                if job == job_id:
                    results['Status'] = "Completed"

        return results

    def fetch_all_jobs(self, metrics_type):
        job_list = self.job_db.fetch_jobs()
        job_report = {}
        if metrics_type is None:
            job_report['job_ids'] = job_list
        elif metrics_type == "metadata":
            job_report['results'] = []
            for job in job_list:
                if metrics_type == 'metadata':
                    metadata = self.fetch_metadata(job)
                    if 'report' in metadata:
                        metadata['report']['_id'] = job
                        job_report['results'].append(metadata['report'])
        return job_report

    def _setup_slave(self, slave):
        logger = logging.getLogger(__name__ + ":" + slave)

        logger.info("Initializing slave at " + slave)

        logger.debug("Checking if slave " + slave + " is alive")

        alive = False
        timer = 10
        while not alive:
            s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
            result = s.connect_ex((slave, 22))
            s.close()

            if result:
                alive = False
                sleep(1)
                timer -= 1
                if timer == 0:
                    logger.debug("Still waiting for slave " + slave)
                    timer = 10
            else:
                alive = True
                logger.debug("Slave " + slave + " is alive and ready")

        ssh = paramiko.SSHClient()
        ssh.set_missing_host_key_policy(paramiko.AutoAddPolicy())
        if self.username and self.password:
            ssh.connect(slave,
                        username=self.username,
                        password=self.password)
        else:
            ssh.connect(slave, username='storperf',
                        key_filename='storperf/resources/ssh/storperf_rsa',
                        timeout=2)

        uname = self._get_uname(ssh)
        logger.debug("Slave uname is %s" % uname)
        self.slave_info[slave] = {}
        self.slave_info[slave]['uname'] = uname

        available = self._check_root_fs(ssh)
        logger.debug("Available space on / is %s" % available)
        if available < 65536:
            logger.warn("Root filesystem is too small, attemping resize")
            self._resize_root_fs(ssh, logger)

            available = self._check_root_fs(ssh)
            logger.debug("Available space on / is now %s" % available)
            if available < 65536:
                logger.error("Cannot create enough space on /")
                raise Exception("Root filesystem has only %s free" %
                                available)

        scp = SCPClient(ssh.get_transport())
        logger.debug("Transferring fio to %s" % slave)
        scp.put('/usr/local/bin/fio', '~/')

    def _get_uname(self, ssh):
        (_, stdout, _) = ssh.exec_command("uname -a")
        return stdout.readline()

    def _check_root_fs(self, ssh):
        (_, stdout, _) = ssh.exec_command("df /")
        stdout.readline()
        lines = stdout.readline().split()
        if len(lines) > 4:
            available = lines[3]
            return int(available)

    def _resize_root_fs(self, ssh, logger):
        command = "sudo /usr/sbin/resize2fs /dev/vda1"
        logger.info("Attempting %s" % command)
        (_, stdout, stderr) = ssh.exec_command(command)
        stdout.channel.recv_exit_status()
        for line in iter(stdout.readline, b''):
            logger.info(line)
        for line in iter(stderr.readline, b''):
            logger.error(line)

    def _make_parameters(self):
        heat_parameters = {}
        heat_parameters['public_network'] = self.public_network
        heat_parameters['agent_count'] = self.agent_count
        heat_parameters['volume_count'] = self.volume_count
        heat_parameters['volume_size'] = self.volume_size
        if self.volume_type is not None:
            heat_parameters['volume_type'] = self.volume_type
        heat_parameters['agent_image'] = self.agent_image
        heat_parameters['agent_flavor'] = self.agent_flavor
        heat_parameters['availability_zone'] = self.availability_zone
        return heat_parameters