Python create_subdir_volume Beispiele

Beispiel #1

Datei: controllerserver.py Projekt: shaneutt/kadalu

    def CreateVolume(self, request, context):
        start_time = time.time()
        logging.debug(logf("Create Volume request", request=request))
        pvsize = request.capacity_range.required_bytes

        pvtype = PV_TYPE_SUBVOL
        # 'latest' finds a place here, because only till 0.5.0 version
        # we had 'latest' as a separate version. After that, 'latest' is
        # just a link to latest version.
        if KADALU_VERSION in ["0.5.0", "0.4.0", "0.3.0"]:
            for vol_capability in request.volume_capabilities:
                # using getattr to avoid Pylint error
                single_node_writer = getattr(
                    csi_pb2.VolumeCapability.AccessMode, "SINGLE_NODE_WRITER")

                if vol_capability.access_mode.mode == single_node_writer:
                    pvtype = PV_TYPE_VIRTBLOCK

        logging.debug(
            logf("Found PV type",
                 pvtype=pvtype,
                 capabilities=request.volume_capabilities))

        # TODO: Check the available space under lock

        # Add everything from parameter as filter item
        filters = {}
        for pkey, pvalue in request.parameters.items():
            filters[pkey] = pvalue

        logging.debug(logf("Filters applied to choose storage", **filters))

        # UID is stored at the time of installation in configmap.
        uid = None
        with open(os.path.join(VOLINFO_DIR, "uid")) as uid_file:
            uid = uid_file.read()

        host_volumes = get_pv_hosting_volumes(filters)
        logging.debug(
            logf("Got list of hosting Volumes",
                 volumes=",".join(v['name'] for v in host_volumes)))
        ext_volume = None
        hostvoltype = filters.get("hostvol_type", None)
        if hostvoltype == 'External':
            ext_volume = check_external_volume(request, host_volumes)

            if ext_volume:
                mntdir = os.path.join(HOSTVOL_MOUNTDIR, ext_volume['name'])

                if not filters.get('kadalu-format', None):
                    # No need to keep the mount on controller
                    unmount_glusterfs(mntdir)

                    logging.info(
                        logf("Volume (External) created",
                             name=request.name,
                             size=pvsize,
                             mount=mntdir,
                             hostvol=ext_volume['g_volname'],
                             pvtype=pvtype,
                             volpath=ext_volume['g_host'],
                             duration_seconds=time.time() - start_time))

                    send_analytics_tracker("pvc-external", uid)
                    return csi_pb2.CreateVolumeResponse(
                        volume={
                            "volume_id": request.name,
                            "capacity_bytes": pvsize,
                            "volume_context": {
                                "type": hostvoltype,
                                "hostvol": ext_volume['name'],
                                "pvtype": pvtype,
                                "gvolname": ext_volume['g_volname'],
                                "gserver": ext_volume['g_host'],
                                "fstype": "xfs",
                                "options": ext_volume['options'],
                            }
                        })

                # The external volume should be used as kadalu host vol

                # TODO: handle the case where host-volume is full
                # can-be-fixed-by-an-intern
                if pvtype == PV_TYPE_VIRTBLOCK:
                    vol = create_virtblock_volume(mntdir, request.name, pvsize)
                else:
                    vol = create_subdir_volume(mntdir, request.name, pvsize)

                logging.info(
                    logf("Volume created",
                         name=request.name,
                         size=pvsize,
                         hostvol=ext_volume['name'],
                         pvtype=pvtype,
                         volpath=vol.volpath,
                         duration_seconds=time.time() - start_time))

                send_analytics_tracker("pvc-external-kadalu", uid)
                # Pass required argument to get mount working on
                # nodeplugin through volume_context
                return csi_pb2.CreateVolumeResponse(
                    volume={
                        "volume_id": request.name,
                        "capacity_bytes": pvsize,
                        "volume_context": {
                            "type": hostvoltype,
                            "hostvol": ext_volume['name'],
                            "pvtype": pvtype,
                            "path": vol.volpath,
                            "gvolname": ext_volume['g_volname'],
                            "gserver": ext_volume['g_host'],
                            "fstype": "xfs",
                            "options": ext_volume['g_options'],
                        }
                    })

            # If external volume not found
            logging.debug(
                logf("Here as checking external volume failed",
                     external_volume=ext_volume))
            errmsg = "External Storage provided not valid"
            logging.error(errmsg)
            context.set_details(errmsg)
            context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
            return csi_pb2.CreateVolumeResponse()

        # Randomize the entries so we can issue PV from different storage
        random.shuffle(host_volumes)

        hostvol = mount_and_select_hosting_volume(host_volumes, pvsize)
        if hostvol is None:
            errmsg = "No Hosting Volumes available, add more storage"
            logging.error(errmsg)
            context.set_details(errmsg)
            context.set_code(grpc.StatusCode.RESOURCE_EXHAUSTED)
            return csi_pb2.CreateVolumeResponse()

        mntdir = os.path.join(HOSTVOL_MOUNTDIR, hostvol)
        if pvtype == PV_TYPE_VIRTBLOCK:
            vol = create_virtblock_volume(mntdir, request.name, pvsize)
        else:
            vol = create_subdir_volume(mntdir, request.name, pvsize)

        logging.info(
            logf("Volume created",
                 name=request.name,
                 size=pvsize,
                 hostvol=hostvol,
                 pvtype=pvtype,
                 volpath=vol.volpath,
                 duration_seconds=time.time() - start_time))

        update_free_size(hostvol, request.name, -pvsize)

        send_analytics_tracker("pvc-%s" % hostvoltype, uid)
        return csi_pb2.CreateVolumeResponse(
            volume={
                "volume_id": request.name,
                "capacity_bytes": pvsize,
                "volume_context": {
                    "type": hostvoltype,
                    "hostvol": hostvol,
                    "pvtype": pvtype,
                    "path": vol.volpath,
                    "fstype": "xfs"
                }
            })

Beispiel #2

    def CreateVolume(self, request, context):
        start_time = time.time()
        logging.debug(logf("Create Volume request", request=request))

        if not request.name:
            errmsg = "Volume name is empty and must be provided"
            logging.error(errmsg)
            context.set_details(errmsg)
            context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
            return csi_pb2.CreateVolumeResponse()

        if not request.volume_capabilities:
            errmsg = "Volume Capabilities is empty and must be provided"
            logging.error(errmsg)
            context.set_details(errmsg)
            context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
            return csi_pb2.CreateVolumeResponse()

        # Check for same name and different capacity
        volume = search_volume(request.name)
        if volume:
            if volume.size != request.capacity_range.required_bytes:
                errmsg = "Failed to create volume with same name with different capacity"
                logging.error(errmsg)
                context.set_details(errmsg)
                context.set_code(grpc.StatusCode.ALREADY_EXISTS)
                return csi_pb2.CreateVolumeResponse()

        pvsize = request.capacity_range.required_bytes

        pvtype = PV_TYPE_SUBVOL
        is_block = False

        storage_options = request.parameters.get("storage_options", "")

        # Mounted BlockVolume is requested via Storage Class.
        # GlusterFS File Volume may not be useful for some workloads
        # they can request for the Virtual Block formated and mounted
        # as default MountVolume.
        if request.parameters.get("pv_type", "").lower() == "block":
            pvtype = PV_TYPE_VIRTBLOCK
            is_block = True

        # RawBlock volume is requested via PVC
        if is_block_request(request):
            pvtype = PV_TYPE_RAWBLOCK
            is_block = True

        if is_block:
            single_node_writer = getattr(csi_pb2.VolumeCapability.AccessMode,
                                         "SINGLE_NODE_WRITER")

            # Multi node writer is not allowed for PV_TYPE_VIRTBLOCK/PV_TYPE_RAWBLOCK
            if pvc_access_mode(request) != single_node_writer:
                errmsg = "Only SINGLE_NODE_WRITER is allowed for block Volume"
                logging.error(errmsg)
                context.set_details(errmsg)
                context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
                return csi_pb2.CreateVolumeResponse()

        logging.debug(
            logf("Found PV type",
                 pvtype=pvtype,
                 capabilities=request.volume_capabilities))

        # TODO: Check the available space under lock

        # Add everything from parameter as filter item
        filters = {}
        for pkey, pvalue in request.parameters.items():
            filters[pkey] = pvalue

        logging.debug(logf("Filters applied to choose storage", **filters))

        # UID is stored at the time of installation in configmap.
        uid = None
        with open(os.path.join(VOLINFO_DIR, "uid")) as uid_file:
            uid = uid_file.read()

        host_volumes = get_pv_hosting_volumes(filters)
        logging.debug(
            logf("Got list of hosting Volumes",
                 volumes=",".join(v['name'] for v in host_volumes)))
        hostvol = None
        ext_volume = None
        data = {}
        hostvoltype = filters.get("hostvol_type", None)
        if not hostvoltype:
            # This means, the request came on 'kadalu' storage class type.

            # Randomize the entries so we can issue PV from different storage
            random.shuffle(host_volumes)

            hostvol = mount_and_select_hosting_volume(host_volumes, pvsize)
            if hostvol is None:
                errmsg = "No Hosting Volumes available, add more storage"
                logging.error(errmsg)
                context.set_details(errmsg)
                context.set_code(grpc.StatusCode.RESOURCE_EXHAUSTED)
                return csi_pb2.CreateVolumeResponse()

            info_file_path = os.path.join(VOLINFO_DIR, "%s.info" % hostvol)
            with open(info_file_path) as info_file:
                data = json.load(info_file)

            hostvoltype = data['type']

        kformat = filters.get('kadalu_format', "native")
        if hostvoltype == 'External':
            ext_volume = check_external_volume(request, host_volumes)

            if ext_volume:
                mntdir = os.path.join(HOSTVOL_MOUNTDIR, ext_volume['name'])

                # By default 'kadalu_format' is set to 'native' as part of CRD
                # definition
                if kformat == 'non-native':
                    # If 'kadalu_format' is 'non-native', the request will be
                    # considered as to map 1 PV to 1 Gluster volume

                    # No need to keep the mount on controller
                    unmount_glusterfs(mntdir)

                    logging.info(
                        logf("Volume (External) created",
                             name=request.name,
                             size=pvsize,
                             mount=mntdir,
                             hostvol=ext_volume['g_volname'],
                             pvtype=pvtype,
                             volpath=ext_volume['g_host'],
                             duration_seconds=time.time() - start_time))

                    send_analytics_tracker("pvc-external", uid)
                    return csi_pb2.CreateVolumeResponse(
                        volume={
                            "volume_id": request.name,
                            "capacity_bytes": pvsize,
                            "volume_context": {
                                "type": hostvoltype,
                                "hostvol": ext_volume['name'],
                                "pvtype": pvtype,
                                "gvolname": ext_volume['g_volname'],
                                "gserver": ext_volume['g_host'],
                                "fstype": "xfs",
                                "options": ext_volume['g_options'],
                                "kformat": kformat,
                            }
                        })

                # The external volume should be used as kadalu host vol

                if not is_hosting_volume_free(ext_volume['name'], pvsize):

                    logging.error(
                        logf("Hosting volume is full. Add more storage",
                             volume=ext_volume['name']))
                    errmsg = "External resource is exhausted"
                    context.set_details(errmsg)
                    context.set_code(grpc.StatusCode.RESOURCE_EXHAUSTED)
                    return csi_pb2.CreateVolumeResponse()

                if pvtype in [PV_TYPE_VIRTBLOCK, PV_TYPE_RAWBLOCK]:
                    vol = create_block_volume(pvtype, mntdir, request.name,
                                              pvsize)
                else:
                    use_gluster_quota = False
                    if (os.path.isfile("/etc/secret-volume/ssh-privatekey") \
                        and "SECRET_GLUSTERQUOTA_SSH_USERNAME" in os.environ):
                        use_gluster_quota = True
                    secret_private_key = "/etc/secret-volume/ssh-privatekey"
                    secret_username = os.environ.get(
                        'SECRET_GLUSTERQUOTA_SSH_USERNAME', None)
                    hostname = filters.get("gluster_hosts", None)
                    gluster_vol_name = filters.get("gluster_volname", None)
                    vol = create_subdir_volume(mntdir, request.name, pvsize,
                                               use_gluster_quota)
                    quota_size = pvsize
                    quota_path = vol.volpath
                    if use_gluster_quota is False:
                        logging.debug(logf("Set Quota in the native way"))
                    else:
                        logging.debug(
                            logf("Set Quota using gluster directory Quota"))
                        errmsg = execute_gluster_quota_command(
                            secret_private_key, secret_username, hostname,
                            gluster_vol_name, quota_path, quota_size)
                        if errmsg:
                            context.set_details(errmsg)
                            context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
                            return csi_pb2.CreateVolumeResponse()
                logging.info(
                    logf("Volume created",
                         name=request.name,
                         size=pvsize,
                         hostvol=ext_volume['name'],
                         pvtype=pvtype,
                         volpath=vol.volpath,
                         duration_seconds=time.time() - start_time))

                send_analytics_tracker("pvc-external-kadalu", uid)
                # Pass required argument to get mount working on
                # nodeplugin through volume_context
                return csi_pb2.CreateVolumeResponse(
                    volume={
                        "volume_id": request.name,
                        "capacity_bytes": pvsize,
                        "volume_context": {
                            "type": hostvoltype,
                            "hostvol": ext_volume['name'],
                            "pvtype": pvtype,
                            "path": vol.volpath,
                            "gvolname": ext_volume['g_volname'],
                            "gserver": ext_volume['g_host'],
                            "fstype": "xfs",
                            "options": ext_volume['g_options'],
                            "kformat": kformat,
                        }
                    })

            # If external volume not found
            logging.debug(
                logf("Here as checking external volume failed",
                     external_volume=ext_volume))
            errmsg = "External Storage provided not valid"
            logging.error(errmsg)
            context.set_details(errmsg)
            context.set_code(grpc.StatusCode.INVALID_ARGUMENT)
            return csi_pb2.CreateVolumeResponse()

        if not hostvol:
            # Randomize the entries so we can issue PV from different storage
            random.shuffle(host_volumes)

            hostvol = mount_and_select_hosting_volume(host_volumes, pvsize)
            if hostvol is None:
                errmsg = "No Hosting Volumes available, add more storage"
                logging.error(errmsg)
                context.set_details(errmsg)
                context.set_code(grpc.StatusCode.RESOURCE_EXHAUSTED)
                return csi_pb2.CreateVolumeResponse()

        if kformat == 'non-native':
            # Then mount the whole volume as PV
            msg = "non-native way of Kadalu mount expected"
            logging.info(msg)
            return csi_pb2.CreateVolumeResponse(
                volume={
                    "volume_id": request.name,
                    "capacity_bytes": pvsize,
                    "volume_context": {
                        "type": hostvoltype,
                        "hostvol": hostvol,
                        "pvtype": pvtype,
                        "fstype": "xfs",
                        "kformat": kformat,
                    }
                })

        mntdir = os.path.join(HOSTVOL_MOUNTDIR, hostvol)
        if pvtype in [PV_TYPE_VIRTBLOCK, PV_TYPE_RAWBLOCK]:
            vol = create_block_volume(pvtype, mntdir, request.name, pvsize)
        else:
            use_gluster_quota = False
            vol = create_subdir_volume(mntdir, request.name, pvsize,
                                       use_gluster_quota)
        logging.info(
            logf("Volume created",
                 name=request.name,
                 size=pvsize,
                 hostvol=hostvol,
                 pvtype=pvtype,
                 volpath=vol.volpath,
                 duration_seconds=time.time() - start_time))

        update_free_size(hostvol, request.name, -pvsize)

        send_analytics_tracker("pvc-%s" % hostvoltype, uid)

        return csi_pb2.CreateVolumeResponse(
            volume={
                "volume_id": request.name,
                "capacity_bytes": pvsize,
                "volume_context": {
                    "type": hostvoltype,
                    "hostvol": hostvol,
                    "pvtype": pvtype,
                    "path": vol.volpath,
                    "fstype": "xfs",
                    "kformat": kformat,
                    "storage_options": storage_options
                }
            })

Beispiel #3

    def CreateVolume(self, request, context):
        start_time = time.time()
        logging.debug(logf(
            "Create Volume request",
            request=request
        ))
        pvsize = request.capacity_range.required_bytes

        # TODO: Check the available space under lock

        # Add everything from parameter as filter item
        filters = {}
        for pkey, pvalue in request.parameters.items():
            filters[pkey] = pvalue

        logging.debug(logf(
            "Filters applied to choose storage",
            **filters
        ))
        host_volumes = get_pv_hosting_volumes(filters)
        logging.debug(logf(
            "Got list of hosting Volumes",
            volumes=",".join(host_volumes)
        ))

        hostvol = mount_and_select_hosting_volume(host_volumes, pvsize)
        if hostvol is None:
            errmsg = "No Hosting Volumes available, add more storage"
            logging.error(errmsg)
            context.set_details(errmsg)
            context.set_code(grpc.StatusCode.RESOURCE_EXHAUSTED)
            return csi_pb2.CreateVolumeResponse()

        pvtype = PV_TYPE_SUBVOL
        for vol_capability in request.volume_capabilities:
            # using getattr to avoid Pylint error
            single_node_writer = getattr(csi_pb2.VolumeCapability.AccessMode,
                                         "SINGLE_NODE_WRITER")

            if vol_capability.access_mode.mode == single_node_writer:
                pvtype = PV_TYPE_VIRTBLOCK

        logging.debug(logf(
            "Found PV type",
            pvtype=pvtype,
            capabilities=request.volume_capabilities
        ))

        if pvtype == PV_TYPE_VIRTBLOCK:
            vol = create_virtblock_volume(
                os.path.join(HOSTVOL_MOUNTDIR, hostvol),
                request.name, pvsize)
        else:
            vol = create_subdir_volume(
                os.path.join(HOSTVOL_MOUNTDIR, hostvol),
                request.name, pvsize)

        logging.info(logf(
            "Volume created",
            name=request.name,
            size=pvsize,
            hostvol=hostvol,
            pvtype=pvtype,
            volpath=vol.volpath,
            duration_seconds=time.time() - start_time
        ))
        return csi_pb2.CreateVolumeResponse(
            volume={
                "volume_id": request.name,
                "capacity_bytes": pvsize,
                "volume_context": {
                    "hostvol": hostvol,
                    "pvtype": pvtype,
                    "path": vol.volpath,
                    "fstype": "xfs"
                }
            }
        )