Exemple #1
0
    def emails(self, format_arg=None):
        '''
        returns the emails of the authors either as a text or as a dict. The
        format is specified as an argument.

        :param format_arg: if "dict" is specified a dict will be returned
        :rtype: dict or arry of e-mails dependent on format_arg
        '''
        if format_arg is None:
            format_string = "'%aN' <%cE>"
        elif format_arg == 'dict':
            format_string = "%aN\t%cE"
        result = Shell.sort(Shell.git("log",
                                      "--all",
                                      "--format=" + format_string,
                                      _tty_in=True,
                                      _tty_out=False,
                                      _piped=True), "-u")

        if format_arg is None:
            return result
        elif format_arg == "dict":
            result = iter(result.replace("\n", "\t").split("\t")[:-1])
            emails = dict(zip(result, result))
            for name in emails:
                emails[name] = emails[name]
            return emails
Exemple #2
0
def boot(auth=True):
    # wipe mongo
    wipe()

    time.sleep(1)
    PROGRESS.next()
    # start mongo without auth
    start(auth=False)

    time.sleep(5)
    PROGRESS.next()
    if isyes(auth):
        # create users
        admin()

        time.sleep(2)
        PROGRESS.next()
        # restart with auth
        kill()

        time.sleep(10)
        PROGRESS.next()
        start(auth=auth)

        time.sleep(1)
        PROGRESS.next()
    config = cm_config_server().get("cloudmesh.server.mongo")
    path = path_expand(config["path"])
    banner(path)
    print Shell.ls(path)
    banner("PROCESS")
    with settings(warn_only=True):
        local("ps -ax | fgrep mongo")
    PROGRESS.next()
Exemple #3
0
def set_rabbitmq_env():

    # BUG undefined
    global RABBITMQ_SERVER

    location = path_expand("~/.cloudmesh/rabbitm")

    if sys.platform == "darwin":
        Shell.mkdir(location)
        rabbit_env["RABBITMQ_MNESIA_BASE"] = location
        rabbit_env["RABBITMQ_LOG_BASE"] = location
        os.environ["RABBITMQ_MNESIA_BASE"] = location
        os.environ["RABBITMQ_LOG_BASE"] = location
        rabbit_env[
            "rabbitmq_server"] = "/usr/local/opt/rabbitmq/sbin/rabbitmq-server"
        rabbit_env["rabbitmqctl"] = "/usr/local/opt/rabbitmq/sbin/rabbitmqctl"
    elif sys.platform == "linux2":
        Shell.mkdir(location)
        rabbit_env["RABBITMQ_MNESIA_BASE"] = location
        rabbit_env["RABBITMQ_LOG_BASE"] = location
        os.environ["RABBITMQ_MNESIA_BASE"] = location
        os.environ["RABBITMQ_LOG_BASE"] = location
        rabbit_env["rabbitmq_server"] = "/usr/sbin/rabbitmq-server"
        rabbit_env["rabbitmqctl"] = "/usr/sbin/rabbitmqctl"
    else:
        print "WARNING: cloudmesh rabbitmq user install not supported, " \
            "using system install"
Exemple #4
0
def set_rabbitmq_env():

    # BUG undefined
    global RABBITMQ_SERVER

    location = path_expand("~/.cloudmesh/rabbitm")

    if sys.platform == "darwin":
        Shell.mkdir(location)
        rabbit_env["RABBITMQ_MNESIA_BASE"] = location
        rabbit_env["RABBITMQ_LOG_BASE"] = location
        os.environ["RABBITMQ_MNESIA_BASE"] = location
        os.environ["RABBITMQ_LOG_BASE"] = location
        rabbit_env[
            "rabbitmq_server"] = "/usr/local/opt/rabbitmq/sbin/rabbitmq-server"
        rabbit_env["rabbitmqctl"] = "/usr/local/opt/rabbitmq/sbin/rabbitmqctl"
    elif sys.platform == "linux2":
        Shell.mkdir(location)
        rabbit_env["RABBITMQ_MNESIA_BASE"] = location
        rabbit_env["RABBITMQ_LOG_BASE"] = location
        os.environ["RABBITMQ_MNESIA_BASE"] = location
        os.environ["RABBITMQ_LOG_BASE"] = location
        rabbit_env["rabbitmq_server"] = "/usr/sbin/rabbitmq-server"
        rabbit_env["rabbitmqctl"] = "/usr/sbin/rabbitmqctl"
    else:
        print "WARNING: cloudmesh rabbitmq user install not supported, " \
            "using system install"
Exemple #5
0
def display_provision_workflow_form():

    form = ProvisionWorkflowForm(csrf=False)

    dir = path_expand(
        cm_config_server().get("cloudmesh.server.workflows.path"))

    filename = "abc"

    web_pwd = Shell.pwd().strip()
    print "PWD", web_pwd
    basename = "/static/{0}/{1}".format(dir, filename,)
    # if form.validate_on_submit():

    #    print "SKIP"
    try:
        with open("{2}/{0}.{1}".format(basename, "diag", web_pwd), "w") as f:
            # print "########################################################################################"
            # print "aaaaaa"+form.workflow.data+"bbb"
            f.write("blockdiag {\n")
            if form.workflow.data == "":
                form.work.data = f.work.default
            if form.properties.data == "":
                form.properties.data = form.properties.default
            f.write(form.properties.data)
            f.write("//graph\n")
            f.write(form.workflow.data)
            f.write("\n}")

            # print
            # "########################################################################################"
            print form.workflow
    except:
        print "file does not exists"
    print "{0}.{1}".format(basename, diagram_format)

    print "OOOO", basename
    Shell.blockdiag("--ignore-pil", "-Tsvg",
              "-o", "{2}/{0}.{1}".format(basename, diagram_format, web_pwd),
              "{2}/{0}.{1}".format(basename, "diag", web_pwd))
    # Shell.blockdiag("-Tpng",
    #          "-o", "." + dir + filename + ".png",
    #          "." + dir + filename + ".diag")

    # else:
    #    flash("Wrong submission")
    inventory.refresh()
    return render_template("provision_workflow.html",
                           workflow=form.workflow.data,
                           form=form,
                           pwd=pwd,
                           diagram="{0}.{1}".format(basename, diagram_format),
                           inventory=inventory)
Exemple #6
0
 def test_help_commands(self):
     HEADING()
     help_commands = [("cloud", "cloud on", None),
                      ("flavor", "", "<"),
                      ("init", "KIND", None),
                      ("list", "projects", None),
                      ("rain", "KIND", None),
                      ("reservation", "duration", None),
                      ("storm", "ID", None),
                      ("vm", "CLOUD", "<"),
                      ("defaults", "clean", None),
                      ("image", "CLOUD", "<"),
                      ("inventory", "exists", None),
                      ("metric", "CLOUD", None),
                      ("register", "CLOUD", None),
                      ("security_group", "CLOUD", "<"),
                      ]
     allok = True
     for (command, valid, invalid) in help_commands:
         r = Shell.cm("help " + command)
         testing = True
         if valid is not None:
             testing = valid in r
         if invalid is not None:
             testing = testing and invalid not in r
         if testing:
             msg = "pass"
         else:
             msg = "fail"
         print("TESTING help", command, msg)
         allok = allok and testing
     assert allok
Exemple #7
0
    def stat(self, email):
        '''
        returns a statistic of a git author with the given e_mail.

        :param email: name of the author
        :rtype: a dict with the statistics
        '''
        sums = [0, 0, 0]
        for line in Shell.git("log", "--all", "--stat", '--author={0}'.format(email),
                              _tty_in=True,
                              _tty_out=False,
                              _iter=True):
            line = line[:-1]

            if " files changed" in line:
                line = line.replace(" insertions(+)", "")
                line = line.replace(" insertion(+)", "")
                line = line.replace(" deletion(-)", "")
                line = line.replace(" deletions(-)", "")
                line = line.replace(" files changed", "")
                line = line.split(",")
                data = [int(i) for i in line]
                for index in range(0, len(data)):
                    sums[index] += data[index]

        return {"email": email,
                "fileschanged": sums[0],
                "inserted": sums[1],
                "deleted": sums[2],
                "lineschanged": sums[1] + sums[2]}
Exemple #8
0
class ProvisionWorkflowForm(Form):
    # print
    # "++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++",Form
    filename = "abc"

    dir = path_expand(
        cm_config_server().get("cloudmesh.server.workflows.path"))

    # not so nice cludge, ask for location of statcic instead

    web_pwd = Shell.pwd().strip()
    basename = "/static/{0}/{1}".format(dir, filename)

    print "BBBB", basename
    try:
        with open("{2}/{0}.{1}".format(basename, "diag", web_pwd), "r") as f:
            data = f.readlines()[1:-1]
            default = "".join(data)
    except:
        print "Error: diagram not found"
        default = ""
    default = default.split("//graph")
    filename = TextField("Filename", default=filename)
    # properties = TextAreaField("Workflow", default=default[0])
    # workflow = TextAreaField("Workflow", default=default[1])
    properties = TextAreaField("Workflow", default="fake")
    workflow = TextAreaField("Workflow", default="fake")
Exemple #9
0
def password():
    user_config = cm_config(filename=config_file("/cloudmesh.yaml"))
    user = user_config.cloud('india')['credentials']

    server_config = ConfigDict(filename=config_file("/cloudmesh_server.yaml"))
    server = server_config.get('cloudmesh.server.keystone.india')

    print(" ".join([
        "keystone", "--os-username", server['OS_USERNAME'], "--os-password",
        server['OS_PASSWORD'], "--os-tenant-name", server['OS_TENANT_NAME'],
        "--os-auth-url", server['OS_AUTH_URL'], "user-password-update",
        "--pass", user['OS_PASSWORD'], user['OS_USERNAME']
    ]))

    Shell.keystone("--os-username", server['OS_USERNAME'], "--os-password",
                   server['OS_PASSWORD'], "--os-tenant-name",
                   server['OS_TENANT_NAME'], "--os-auth-url",
                   server['OS_AUTH_URL'], "user-password-update", "--pass",
                   user['OS_PASSWORD'], user['OS_USERNAME'])
Exemple #10
0
def password():
    user_config = cm_config(filename=config_file("/cloudmesh.yaml"))
    user = user_config.cloud('india')['credentials']

    server_config = ConfigDict(filename=config_file("/cloudmesh_server.yaml"))
    server = server_config.get('cloudmesh.server.keystone.india')

    print(" ".join(["keystone", "--os-username", server['OS_USERNAME'],
                    "--os-password", server['OS_PASSWORD'],
                    "--os-tenant-name", server['OS_TENANT_NAME'],
                    "--os-auth-url", server['OS_AUTH_URL'],
                    "user-password-update",
                    "--pass", user['OS_PASSWORD'], user['OS_USERNAME']]))

    Shell.keystone("--os-username", server['OS_USERNAME'],
                   "--os-password", server['OS_PASSWORD'],
                   "--os-tenant-name", server['OS_TENANT_NAME'],
                   "--os-auth-url", server['OS_AUTH_URL'],
                   "user-password-update",
                   "--pass", user['OS_PASSWORD'], user['OS_USERNAME'])
Exemple #11
0
 def grep_command(self, command, valid, invalid):
     ok = True
     r = Shell.cm(command)
     print(r)
     if valid is not None:
         for word in valid:
             msg = "passed"
             testing = word in r
             print("Testing", command, self.message(testing, word))
             ok = ok and testing
     if invalid is not None:
         for word in invalid:
             msg = "passed"
             testing = word not in r
             print("Testing", command, self.message(testing, word))
             ok = ok and testing
     return ok
Exemple #12
0
    def authors(self, format_arg=None):
        '''
        returns the authors of the authors either as a text or as a dict. The
        format is specified as an argument.

        :param format_arg: if "dict" is specified a dict will be returned
        '''
        result = Shell.git("shortlog", "-s", "-n", _tty_in=True, _tty_out=False)
        if format_arg is None:
            return result
        elif format_arg == "dict":
            list_string = result.replace("\n", "\t").split("\t")[:-1]
            it = iter(list_string[::-1])
            authors = dict(zip(it, it))
            for name in authors:
                authors[name] = int(authors[name])
            return authors
Exemple #13
0
def wipe():
    """wipes out all traces from mongo"""
    kill()
    config = cm_config_server().get("cloudmesh.server.mongo")

    path = path_expand(config["path"])

    banner("{0}".format(path))
    local("mkdir -p {0}".format(path))
    result = str(Shell.ls(path))
    banner(path, "-")
    print result
    print 70 * "-"
    if result != "":
        if yn_choice("deleting the directory", default="n"):
            local("rm -rf {0}".format(path))
            local("mkdir -p {0}".format(path))
            banner("{0}".format(path))
            local("ls {0}".format(path))
Exemple #14
0
class Test:

    # assuming first - is the prefered cloud
    cloudmesh_yaml = config_file("/cloudmesh.yaml")
    print(cloudmesh_yaml)
    cloud_label = Shell.head(Shell.fgrep("-", cloudmesh_yaml), "-n", "1")
    cloud_label = cloud_label.replace(" - ", "").strip()

    def setup(self):
        """setup the test"""
        print("CONFIG")
        self.configuration = cm_config()
        print("OK")

        self.name = 'india_juno'  # self.configuration.active()[3]
        print("ACTIVE CLOUD", self.name)

        self.cloud = openstack(self.name)
        print("PPPP")

        self.cloud.get_token()
        pp.pprint(self.cloud.user_token)
        print("LOADED CLOUD")
        """
        # For multiple clouds
        # e.g. india
        self.names = self.configuration.active()
        if len(self.names) > 1:
            print "ACTIVE CLOUDS", ",".join(self.names)
            self.clouds = []
            for name in self.names:
                self.clouds.append(openstack(name))
                self.clouds[-1].get_token()
            print "LOADED CLOUDS"
        """

    def test_00_label(self):
        """test the label"""
        HEADING()
        print(self.cloud_label)
        assert self.cloud.label == self.cloud_label

    def test_01_limit(self):
        """different way to get limits"""
        HEADING()
        print(json.dumps(self.cloud.limits(), indent=4))

    def test_02_info(self):
        """get some infor about the cloud"""
        HEADING()
        self.cloud.refresh('images')
        print(json.dumps(self.cloud.dump('images'), indent=4))
        # pp.pprint(self.cloud.dump('images', with_manager=True))
        pp.pprint(self.cloud.images)
        # doing a simple test as tiny is usually 512
        # assert self.cloud.flavors['m1.tiny']['ram'] == 512
        print("Currently running vms:", len(self.cloud.images))
        # we assume cloud is always busy which may actually not true
        # we should start our own vm and than probe for it for now > 0 will do
        assert self.cloud.images > 0

    def test_03_flavors(self):
        """get the flavor"""
        HEADING()
        self.cloud.refresh('flavors')

        print(json.dumps(self.cloud.dump('flavors'), indent=4))

        # doing a simple test as tiny is usually 512
        assert self.cloud.flavor('m1.tiny')['ram'] == 512

    def test_04_start_vm(self):
        """start a vm"""
        HEADING()
        configuration = cm_config()
        image = configuration.default(self.name)['image']
        keys = configuration.userkeys()
        key_name = keys["default"]
        key_content = keys[key_name]
        # print key_name
        # print key_content
        print("STARTING IMAGE", image)
        meta = {"cmtag": "testing tag from creation via rest api"}
        result = self.cloud.vm_create("fw-test-by-post-003",
                                      "2",
                                      image,
                                      key_name="grizzlykey",
                                      meta=meta)
        # result = self.cloud.vm_create("fw-test-by-post-003", "100", image, meta=meta)
        pp.pprint(result)
        assert len(result.keys()) > 0

    def test_05_get_public_ip(self):
        """get an ip"""
        HEADING()
        print("Obtaining public ip......")
        ip = self.cloud.get_public_ip()
        print("this is the ip returned:--->%s<---" % ip)

    def test_06_assign_public_ip(self):
        """assign an ip"""
        HEADING()
        print("Associate a public ip to an running instance......")
        # serverid = "cc9bd86b-babf-4760-a5cd-c1f28df7506b"
        # ip = "fakeip" # {u'itemNotFound': {u'message': u'floating ip not found', u'code': 404}}
        # ip = "198.202.120.175"
        serverid = "b088e764-681c-4448-b487-9028b23a729e"
        print("In process of obtaining a new ip...")
        ip = self.cloud.get_public_ip()
        print("Got a new ip as: %s, now associating the ip..." % ip)
        print(self.cloud.assign_public_ip(serverid, ip))

    def test_07_list_public_ips(self):
        """list the ips"""
        HEADING()
        print("List all public ips allocated to the current account...")
        ips = self.cloud.list_allocated_ips()
        ips_id_to_instance = {}
        for ip in ips:
            ips_id_to_instance[ip['id']] = ip['instance_id']
        print(ips_id_to_instance)

    def test_08_release_public_ips(self):
        """release the ips"""
        HEADING()
        print(
            "Release all public ips allocated to the current account but not being used..."
        )
        print("Before releasing, we have...")
        self.test04_list_public_ips()
        print("releasing...")
        self.cloud.release_unused_public_ips()
        print("after releasing...")
        self.test04_list_public_ips()

    def test_09_print_vms(self):
        """print the servers"""
        HEADING()
        self.cloud.refresh('servers')
        print(json.dumps(self.cloud.dump('servers'), indent=4))
        # we assume that there are always images running
        assert len(self.cloud.servers) > 0

    def test_10_refresh(self):
        """refresh"""
        HEADING()
        self.cloud.refresh()
        pp.pprint(self.cloud.get(self.name))
        assert self.cloud.images > 0

    def test_11_print_tables(self):
        """print a table"""
        HEADING()
        self.test_03()
        table = cm_table()
        columns = ["id", "name", "ram", "vcpus"]

        table.create(self.cloud.flavors, columns, header=True)
        print(table)

        table = cm_table()
        columns = ["id", "name", "ram", "vcpus"]

        table.create(self.cloud.flavors, columns, format='HTML', header=True)
        print(table)

        table = cm_table()
        columns = ["id", "name", "ram", "vcpus"]

        table.create(self.cloud.flavors, columns, format='%12s', header=True)
        print(table)

        assert table is not None

    def test_12_start_delete_vm(self):
        """delete a vm"""
        print("no test was being done")
        '''
        name ="%s-%04d" % (self.cloud.credential["OS_USERNAME"], 1)
        out = self.cloud.vm_create(name, "m1.tiny", "6d2bca76-8fff-4d57-9f29-50378539b4fa")

        pp.pprint(out)
        print json.dumps(out, indent=4)

        key = out.keys()[0]
        id = out[key]["id"]
        print id
        '''
        # id = "d9e73d16-a85e-47bf-8ab4-19d7955622db"
        # id = "2a00332d-6a4a-4f7e-ad46-751438cc4d5e"
        # id = "af46b3cd-99d9-4609-8c27-c481b0227e15"
        # id="fakeid"
        # id="b1279fa1-390a-41f8-b5d2-ad9b26cfb48a"
        # ret=self.cloud.vm_delete(id)
        # print "--->%s<---" % ret

    def test_13_delete_vms_of_user(self):
        """delete a vm of a specific user"""
        HEADING()

        self.cloud.refresh()

        user_id = self.cloud.find_user_id(force=True)
        vm_ids = self.cloud.find('user_id', user_id)
        print("userid", user_id)
        config = cm_config()
        config.data['cloudmesh']['clouds'][
            self.name]['credentials']['OS_USER_ID'] = user_id
        config.write()

        #
        # delete all vms of the user
        #
        servers = self.cloud.servers
        print(servers)

        list = self.cloud.vms_delete_user()

        self.cloud = openstack(self.cloud_label)
        self.cloud.refresh()
        self.cloud.info()

        vm_ids = self.cloud.find('user_id', user_id)
        self.cloud.info()

        time.sleep(2)
        self.cloud.refresh()

        while len(vm_ids) > 0:
            vm_ids = self.cloud.find('user_id', user_id)
            self.cloud.refresh("servers")
            self.cloud.info()
            time.sleep(1)

        print("vms", vm_ids)

        assert vm_ids == []

    def test_14_start_two_vms(self):
        """start two vms"""
        HEADING()
        configuration = cm_config()
        image = configuration.default(self.name)['image']
        print("STARTING IMAGE", image)
        result = self.cloud.vm_create("gregor-test-001", "m1.tiny", image)
        # print result
        result = self.cloud.vm_create("gregor-test-002", "m1.tiny", image)
        # print result
        self.cloud.refresh()
        self.cloud.info()

        config = cm_config()
        print("CONFIG")
        user_id = config.data['cloudmesh']['clouds'][
            self.name]['credentials']['OS_USER_ID']
        print(user_id)

        vm_ids = self.cloud.find('user_id', user_id)
        print(vm_ids)

        assert len(vm_ids) == 2

    def test_15_list_user_vms(self):
        """list user and vms"""
        HEADING()
        list = self.cloud.vms_user(refresh=True)
        pp.pprint(list)

    def test_16_refresh_all(self):
        """refresh all"""
        HEADING()
        self.cloud.refresh()
        self.cloud.info()

    def test_17_print_states(self):
        """print states"""
        HEADING()
        self.cloud.refresh()
        print(self.cloud.states)

        search_states = ('ACTIVE', 'PAUSED')

        state = 'ACTIVE'
        userid = None

        print(state in search_states)

        # self.cloud.display(search_states, userid)

        # print json.dumps(self.cloud.servers, indent=4)

        self.cloud.display_regex("vm['status'] in ['ACTIVE']", userid)

        print(json.dumps(self.cloud.dump('servers'), indent=4))

        #        self.cloud.display_regex("vm['status'] in ['ERROR']", userid)

        # print json.dumps(self.cloud.servers, indent=4)

    def test_18_meta(self):
        """test metadata"""
        HEADING()
        self.clean()
        image = self.configuration.default(self.name)['image']
        flavor = self.configuration.default(self.name)['flavor']
        self.configuration.prefix = "gvonlasz-test"
        self.configuration.incr()
        name = self.configuration.vmname
        print(name)
        result = self.cloud.vm_create(name, flavor, image)
        id = result['id']
        print(id)
        result = self.cloud.wait(id, 'ACTIVE')
        result = self.cloud.set_meta(id, {"owner": "gregor"})
        print("RESULT", result)
        meta = self.cloud.get_meta(id)
        print(meta)

    def test_19_list_secgroup(self):
        """list security group"""
        pp.pprint(self.cloud.list_security_groups())

    def test_20_create_secgroup(self):
        """test security group"""
        # print "defining a group"
        # mygroup = Ec2SecurityGroup("testSecGroupCM")
        mygroup = Ec2SecurityGroup("default")
        # print "defining a security rule"
        # rule1 = Ec2SecurityGroup.Rule(8088, 8088)
        # rule2 = Ec2SecurityGroup.Rule(9090, 9099, "UDP")
        # rules = [rule1, rule2]
        # print self.cloud.create_security_group(mygroup, rules)
        # mygroup.set_rules(rules)
        # print self.cloud.create_security_group(mygroup)
        groupid = self.cloud.find_security_groupid_by_name(mygroup.name)
        # print groupid
        assert groupid is not None
        rule3 = Ec2SecurityGroup.Rule(5000, 5000)
        # rule3 = Ec2SecurityGroup.Rule(22,22)
        rule4 = Ec2SecurityGroup.Rule(-1, -1, 'ICMP')
        print(self.cloud.add_security_group_rules(groupid, [rule3, rule4]))
        groupid = self.cloud.find_security_groupid_by_name(
            "dummy_name_not_exist")
        print(groupid)
        assert groupid is None

    def test_21_usage(self):
        """test usage"""
        # by default, expect getting tenant usage info
        pp.pprint(self.cloud.usage())
        serverid = "e24807f6-c0d1-4cd0-a9d6-14ccd06a5c79"
        # getting usage data for one specific server
        pp.pprint(self.cloud.usage(serverid=serverid))
        pp.pprint(self.cloud.usage(serverid="fakeserverid"))

    def test_22_ks_get_extensions(self):
        """test getting extensions"""
        pp.pprint(self.cloud.ks_get_extensions())

    def test_23_keypair_add(self):
        keyname = "skwind"
        keycontent = "ssh-dss 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"
        pp.pprint(self.cloud.keypair_add(keyname, keycontent))

    def test_24_keypair_list(self):
        pp.pprint(self.cloud.keypair_list())

    def start(self):
        """start image"""
        HEADING()
        image = self.configuration.default(self.name)['image']
        flavor = self.configuration.default(self.name)['flavor']
        self.configuration.prefix = "gvonlasz-test"
        self.configuration.incr()
        name = self.configuration.vmname
        print("STARTING IMAGE", name, image, flavor)
        result = self.cloud.vm_create(name, flavor, image)
        print(result)

    def info(self):
        """info"""
        HEADING()
        self.cloud.refresh()
        self.cloud.info()

    def clean(self):
        """clean"""
        HEADING()

        self.cloud.refresh()
        self.cloud.info()

        user_id = self.cloud.find_user_id()
        print("Cleaning", user_id)

        list = self.cloud.vms_delete_user()
        print("Cleaning", list)

        vm_ids = self.cloud.find('user_id', user_id)
        while len(vm_ids) > 0:
            vm_ids = self.cloud.find('user_id', user_id)
            self.cloud.refresh("servers")
            self.cloud.info()
            time.sleep(1)

        print("vms", vm_ids)

        assert vm_ids == []

    def test_24_get_extensions(self):
        """test geting the cloud extensions"""
        HEADING()

        print(json.dumps(self.cloud.get_extensions(), indent=4))
        assert True

    def test_25_get_users(self):
        """test to get the users"""
        HEADING()

        self.cloud.refresh("users")

        #        print json.dumps(self.cloud.get_users(), indent=4)
        print(json.dumps(self.cloud.users, indent=4))

        assert True

    def test_26_get_users_all(self):
        """testto get all information for the users"""

        for name in self.configuration.active():
            HEADING()
            cloud = openstack(name)
            cloud.refresh("users")
            print(json.dumps(cloud.users, indent=4))

        assert True

    def test_27_get_limits(self):
        """test to get the limits"""
        HEADING()
        print(json.dumps(self.cloud.get_limits(), indent=4))
        assert True

    def test_28_get_servers(self):
        """test to get the servers"""
        HEADING()

        print(json.dumps(self.cloud.get_servers(), indent=4))
        assert True

    def test_29_get_flavors(self):
        """test to get the flavors"""
        HEADING()
        # self.cloud.refresh('flavors')
        # print json.dumps(self.cloud.dump('flavors'), indent=4)

        print(json.dumps(self.cloud.get_flavors(), indent=4))
        assert True

    def test_30_get_images(self):
        """test to get the images"""
        HEADING()
        self.cloud.refresh('images')
        print(json.dumps(self.cloud.dump('images'), indent=4))

        print(json.dumps(self.cloud.get_images(), indent=4))
        assert True

    """
Exemple #15
0
 def version(self):
     '''
     retruns the verison of the code from github
     :rtype: the git tags
     '''
     return str(Shell.git("describe", "--tags"))[:-1]
Exemple #16
0
class Test:

    # assuming first - is the prefered cloud
    print(os.path.expandvars(cloudmesh_yaml=config_file("/cloudmesh.yaml")))
    cloud_label = Shell.head(
        Shell.fgrep("-", cloudmesh_yaml=config_file("/cloudmesh.yaml")), "-n", "1")
    cloud_label = cloud_label.replace(" - ", "").strip()

    def setup(self):
        self.configuration = cm_config()
        euca_clouds = []
        for name in self.configuration.config['cloudmesh']['clouds'].keys():
            if self.configuration.config['cloudmesh']['clouds'][name]['cm_type'] == 'eucalyptus':
                euca_clouds.append(name)
        self.name = euca_clouds[0]
        print("LOADING EUCA CLOUD", self.name)
        self.cloud = eucalyptus(self.name)
        print("LOADED CLOUD")

    def tearDown(self):
        pass

    def start(self):
        HEADING()
        image = self.configuration.default(self.name)['image']
        flavor = self.configuration.default(self.name)['flavor']
        self.configuration.prefix = "gvonlasz-test"
        self.configuration.incr()
        name = self.configuration.vmname
        print("STARTING IMAGE", name, image, flavor)
        result = self.cloud.vm_create(name, flavor, image)
        print(result)

    def test_label(self):
        HEADING()
        print(self.cloud.label)
        print(self.cloud.credentials)
        assert True

    # def test_01_limit(self):
    #    HEADING()
    #    print json.dumps(self.cloud.limits(), indent=4)

    def test_info(self):
        HEADING()
        self.cloud.refresh('images')
        print(json.dumps(self.cloud.dump('images'), indent=4))
        # pprint(self.cloud.dump('images', with_manager=True))
        pprint(self.cloud.images)
        # doing a simple test as tiny is usually 512
        # assert self.cloud.flavors['m1.tiny']['ram'] == 512
        print("Currently running vms:", len(self.cloud.images))
        # we assume cloud is always busy which may actually not true
        # we should start our own vm and than probe for it for now > 0 will do
        assert self.cloud.images > 0

    def test_list_flavors(self):
        HEADING()
        self.cloud.refresh('flavors')

        print(json.dumps(self.cloud.dump('flavors'), indent=4))

        # doing a simple test as tiny is usually 512
        assert self.cloud.flavors['m1.small']['ram'] == 512

    def test_list_images(self):
        HEADING()
        self.cloud.refresh('images')

        print(json.dumps(self.cloud.dump('images'), indent=4))

        # doing a simple test as tiny is usually 512
        # assert self.cloud.flavors['m1.small']['ram'] == 512
        assert True

    def test_list_servers(self):
        HEADING()
        self.cloud.refresh('servers')

        print(json.dumps(self.cloud.dump('servers'), indent=4))

        # doing a simple test as tiny is usually 512
        # assert self.cloud.flavors['m1.small']['ram'] == 512
        assert True

    def test_start_vm(self):
        HEADING()
        configuration = cm_config()
        print("NAME", self.name)

        print("Getting Flavours")
        self.cloud.refresh('flavors')
        flavor = configuration.default(self.name)['flavor']

        print("Getting Images")
        self.cloud.refresh('images')
        image = configuration.default(self.name)['image']

        print(self.cloud.flavors_cache)
        print(self.cloud.images_cache)

        print("STARTING IMAGE", image, flavor)
        result = self.cloud.vm_create(
            "gregor-test-001", flavor_name=flavor, image_id=image)
        print(result)
        assert len(result.keys()) > 0

    def test_delete_vm(self):
        HEADING()
        configuration = cm_config()
        print("NAME", self.name)

        print("Getting Flavours")
        self.cloud.refresh('flavors')
        flavor = configuration.default(self.name)['flavor']

        print("Getting Images")
        self.cloud.refresh('images')
        image = configuration.default(self.name)['image']

        # print self.cloud.flavors_cache
        # print self.cloud.images_cache

        print("STARTING VM", image, flavor)
        result = self.cloud.vm_create(
            "gregor-test-del", flavor_name=flavor, image_id=image)
        print(result)

        print("DELETE VM", image, flavor)
        self.cloud.refresh('servers')
        result = self.cloud.vm_delete("gregor-test-del")
        print(result)

        assert len(result.keys()) > 0

    def test_refresh(self):
        HEADING()
        self.cloud.refresh()
        pprint(self.cloud.get(self.name))
        assert self.cloud.images > 0

    def test_05_print_vms(self):
        HEADING()
        self.cloud.refresh('servers')
        print(json.dumps(self.cloud.dump('servers'), indent=4))
        # we assume that there are always images running
        assert len(self.cloud.servers) > 0

    """
    def test_0??_usage(self):
        result = self.cloud.usage("2000-01-01T00:00:00", "2013-12-31T00:00:00")
        print json.dumps(result, indent=4)
        assert ['Instances'] > 0
    """

    def test_07_print_tables(self):
        HEADING()
        self.test_03()
        table = cm_table()
        columns = ["id", "name", "ram", "vcpus"]

        table.create(self.cloud.flavors, columns, header=True)
        print(table)

        table = cm_table()
        columns = ["id", "name", "ram", "vcpus"]

        table.create(self.cloud.flavors, columns, format='HTML', header=True)
        print(table)

        table = cm_table()
        columns = ["id", "name", "ram", "vcpus"]

        table.create(self.cloud.flavors, columns, format='%12s', header=True)
        print(table)

        assert table is not None
    """
    def test_07_start_delete_vm(self):
        name ="%s-%04d" % (self.cloud.credential["OS_USERNAME"], 1)
        out = self.cloud.vm_create(name, "m1.tiny", "6d2bca76-8fff-4d57-9f29-50378539b4fa")

        pprint(out)
        print json.dumps(out, indent=4)

        key = out.keys()[0]
        id = out[key]["id"]
        print id

        vm = self.cloud.vm_delete(id)
        print vm
    """

    def test_08_delete_vms_of_user(self):
        HEADING()

        self.cloud.refresh()

        user_id = self.cloud.find_user_id(force=True)
        vm_ids = self.cloud.find('user_id', user_id)
        print("userid", user_id)
        config = cm_config()
        config.data['cloudmesh']['clouds'][self.name][
            'credentials']['OS_USER_ID'] = user_id
        config.write()

        #
        # delete all vms of the user
        #
        servers = self.cloud.servers
        print(servers)

        list = self.cloud.vms_delete_user()

        self.cloud = openstack(self.cloud_label)
        self.cloud.refresh()
        self.cloud.info()

        vm_ids = self.cloud.find('user_id', user_id)
        self.cloud.info()

        time.sleep(2)
        self.cloud.refresh()

        while len(vm_ids) > 0:
            vm_ids = self.cloud.find('user_id', user_id)
            self.cloud.refresh("servers")
            self.cloud.info()
            time.sleep(1)

        print("vms", vm_ids)

        assert vm_ids == []

    def test_09_start_two_vms(self):
        HEADING()
        configuration = cm_config()
        image = configuration.default(self.name)['image']
        print("STARTING IMAGE", image)
        result = self.cloud.vm_create("gregor-test-001", "m1.tiny", image)
        # print result
        result = self.cloud.vm_create("gregor-test-002", "m1.tiny", image)
        # print result
        self.cloud.refresh()
        self.cloud.info()

        config = cm_config()
        print("CONFIG")
        user_id = config.data['cloudmesh']['clouds'][
            self.name]['credentials']['OS_USER_ID']
        print(user_id)

        vm_ids = self.cloud.find('user_id', user_id)
        print(vm_ids)

        assert len(vm_ids) == 2

    def test_10_list_user_vms(self):
        HEADING()
        list = self.cloud.vms_user(refresh=True)
        pprint(list)

    def test_11_refresh_all(self):
        HEADING()
        self.cloud.refresh()
        self.cloud.info()

    def test_12_print_states(self):
        HEADING()
        self.cloud.refresh()
        print(self.cloud.states)

        search_states = ('ACTIVE', 'PAUSED')

        state = 'ACTIVE'
        userid = None

        print(state in search_states)

        # self.cloud.display(search_states, userid)

        # print json.dumps(self.cloud.servers, indent=4)

        self.cloud.display_regex("vm['status'] in ['ACTIVE']", userid)

        print(json.dumps(self.cloud.dump('servers'), indent=4))

        #        self.cloud.display_regex("vm['status'] in ['ERROR']", userid)

        # print json.dumps(self.cloud.servers, indent=4)

    def test_13_meta(self):
        HEADING()
        self.clean()
        image = self.configuration.default(self.name)['image']
        flavor = self.configuration.default(self.name)['flavor']
        self.configuration.prefix = "gvonlasz-test"
        self.configuration.incr()
        name = self.configuration.vmname
        print(name)
        result = self.cloud.vm_create(name, flavor, image)
        id = result['id']
        print(id)
        result = self.cloud.wait(id, 'ACTIVE')
        result = self.cloud.set_meta(id, {"owner": "gregor"})
        print("RESULT", result)
        meta = self.cloud.get_meta(id)
        print(meta)

    def info(self):
        HEADING()
        self.cloud.refresh()
        self.cloud.info()

    def clean(self):
        HEADING()

        self.cloud.refresh()
        self.cloud.info()

        user_id = self.cloud.find_user_id()
        print("Cleaning", user_id)

        list = self.cloud.vms_delete_user()
        print("Cleaning", list)

        vm_ids = self.cloud.find('user_id', user_id)
        while len(vm_ids) > 0:
            vm_ids = self.cloud.find('user_id', user_id)
            self.cloud.refresh("servers")
            self.cloud.info()
            time.sleep(1)

        print("vms", vm_ids)

        assert vm_ids == []
Exemple #17
0
 def test_help(self):
     HEADING()
     r = Shell.cm("help")
     print(r)
     assert "vm" in r and "cloud" in r and "list" in r