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#!/usr/bin/python
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#
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# Copyright (C) 2011, 2012 Google Inc.
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful, but
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# WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
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# 02110-1301, USA.
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"""Converter tools between ovf and ganeti config file
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"""
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# pylint: disable=F0401, E1101
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# F0401 because ElementTree is not default for python 2.4
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# E1101 makes no sense - pylint assumes that ElementTree object is a tuple
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import ConfigParser |
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import errno |
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import logging |
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import os |
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import os.path |
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import re |
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import shutil |
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import tarfile |
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import tempfile |
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import xml.dom.minidom |
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import xml.parsers.expat |
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try:
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import xml.etree.ElementTree as ET |
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except ImportError: |
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import elementtree.ElementTree as ET |
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try:
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ParseError = ET.ParseError # pylint: disable=E1103
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except AttributeError: |
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ParseError = None
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from ganeti import constants |
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from ganeti import errors |
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from ganeti import utils |
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from ganeti import pathutils |
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# Schemas used in OVF format
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GANETI_SCHEMA = "http://ganeti"
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OVF_SCHEMA = "http://schemas.dmtf.org/ovf/envelope/1"
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RASD_SCHEMA = ("http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/"
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"CIM_ResourceAllocationSettingData")
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VSSD_SCHEMA = ("http://schemas.dmtf.org/wbem/wscim/1/cim-schema/2/"
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"CIM_VirtualSystemSettingData")
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XML_SCHEMA = "http://www.w3.org/2001/XMLSchema-instance"
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# File extensions in OVF package
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OVA_EXT = ".ova"
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OVF_EXT = ".ovf"
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MF_EXT = ".mf"
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CERT_EXT = ".cert"
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COMPRESSION_EXT = ".gz"
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FILE_EXTENSIONS = [ |
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OVF_EXT, |
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MF_EXT, |
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CERT_EXT, |
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] |
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COMPRESSION_TYPE = "gzip"
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NO_COMPRESSION = [None, "identity"] |
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COMPRESS = "compression"
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DECOMPRESS = "decompression"
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ALLOWED_ACTIONS = [COMPRESS, DECOMPRESS] |
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VMDK = "vmdk"
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RAW = "raw"
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COW = "cow"
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ALLOWED_FORMATS = [RAW, COW, VMDK] |
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# ResourceType values
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RASD_TYPE = { |
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"vcpus": "3", |
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"memory": "4", |
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"scsi-controller": "6", |
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"ethernet-adapter": "10", |
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"disk": "17", |
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} |
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SCSI_SUBTYPE = "lsilogic"
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VS_TYPE = { |
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"ganeti": "ganeti-ovf", |
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"external": "vmx-04", |
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} |
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# AllocationUnits values and conversion
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ALLOCATION_UNITS = { |
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"b": ["bytes", "b"], |
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"kb": ["kilobytes", "kb", "byte * 2^10", "kibibytes", "kib"], |
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"mb": ["megabytes", "mb", "byte * 2^20", "mebibytes", "mib"], |
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"gb": ["gigabytes", "gb", "byte * 2^30", "gibibytes", "gib"], |
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} |
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CONVERT_UNITS_TO_MB = { |
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"b": lambda x: x / (1024 * 1024), |
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"kb": lambda x: x / 1024, |
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"mb": lambda x: x, |
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"gb": lambda x: x * 1024, |
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} |
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# Names of the config fields
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NAME = "name"
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OS = "os"
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HYPERV = "hypervisor"
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VCPUS = "vcpus"
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MEMORY = "memory"
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AUTO_BALANCE = "auto_balance"
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DISK_TEMPLATE = "disk_template"
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TAGS = "tags"
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VERSION = "version"
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# Instance IDs of System and SCSI controller
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INSTANCE_ID = { |
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"system": 0, |
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"vcpus": 1, |
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"memory": 2, |
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"scsi": 3, |
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} |
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# Disk format descriptions
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DISK_FORMAT = { |
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RAW: "http://en.wikipedia.org/wiki/Byte",
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VMDK: "http://www.vmware.com/interfaces/specifications/vmdk.html"
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"#monolithicSparse",
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COW: "http://www.gnome.org/~markmc/qcow-image-format.html",
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} |
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def CheckQemuImg(): |
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""" Make sure that qemu-img is present before performing operations.
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@raise errors.OpPrereqError: when qemu-img was not found in the system
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"""
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if not constants.QEMUIMG_PATH: |
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raise errors.OpPrereqError("qemu-img not found at build time, unable" |
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" to continue", errors.ECODE_STATE)
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def LinkFile(old_path, prefix=None, suffix=None, directory=None): |
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"""Create link with a given prefix and suffix.
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This is a wrapper over os.link. It tries to create a hard link for given file,
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but instead of rising error when file exists, the function changes the name
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a little bit.
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@type old_path:string
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@param old_path: path to the file that is to be linked
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@type prefix: string
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@param prefix: prefix of filename for the link
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@type suffix: string
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@param suffix: suffix of the filename for the link
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@type directory: string
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@param directory: directory of the link
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@raise errors.OpPrereqError: when error on linking is different than
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"File exists"
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"""
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assert(prefix is not None or suffix is not None) |
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if directory is None: |
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directory = os.getcwd() |
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new_path = utils.PathJoin(directory, "%s%s" % (prefix, suffix))
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counter = 1
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while True: |
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try:
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os.link(old_path, new_path) |
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break
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except OSError, err: |
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if err.errno == errno.EEXIST:
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new_path = utils.PathJoin(directory, |
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"%s_%s%s" % (prefix, counter, suffix))
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counter += 1
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else:
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raise errors.OpPrereqError("Error moving the file %s to %s location:" |
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" %s" % (old_path, new_path, err),
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errors.ECODE_ENVIRON) |
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return new_path
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class OVFReader(object): |
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"""Reader class for OVF files.
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@type files_list: list
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@ivar files_list: list of files in the OVF package
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@type tree: ET.ElementTree
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@ivar tree: XML tree of the .ovf file
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@type schema_name: string
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@ivar schema_name: name of the .ovf file
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@type input_dir: string
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@ivar input_dir: directory in which the .ovf file resides
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"""
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def __init__(self, input_path): |
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"""Initialiaze the reader - load the .ovf file to XML parser.
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It is assumed that names of manifesto (.mf), certificate (.cert) and ovf
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files are the same. In order to account any other files as part of the ovf
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package, they have to be explicitly mentioned in the Resources section
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of the .ovf file.
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@type input_path: string
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@param input_path: absolute path to the .ovf file
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@raise errors.OpPrereqError: when .ovf file is not a proper XML file or some
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of the files mentioned in Resources section do not exist
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"""
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self.tree = ET.ElementTree()
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try:
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self.tree.parse(input_path)
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except (ParseError, xml.parsers.expat.ExpatError), err:
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raise errors.OpPrereqError("Error while reading %s file: %s" % |
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(OVF_EXT, err), errors.ECODE_ENVIRON) |
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# Create a list of all files in the OVF package
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(input_dir, input_file) = os.path.split(input_path) |
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(input_name, _) = os.path.splitext(input_file) |
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files_directory = utils.ListVisibleFiles(input_dir) |
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files_list = [] |
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for file_name in files_directory: |
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(name, extension) = os.path.splitext(file_name) |
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if extension in FILE_EXTENSIONS and name == input_name: |
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files_list.append(file_name) |
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files_list += self._GetAttributes("{%s}References/{%s}File" % |
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(OVF_SCHEMA, OVF_SCHEMA), |
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"{%s}href" % OVF_SCHEMA)
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for file_name in files_list: |
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file_path = utils.PathJoin(input_dir, file_name) |
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if not os.path.exists(file_path): |
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raise errors.OpPrereqError("File does not exist: %s" % file_path, |
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errors.ECODE_ENVIRON) |
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logging.info("Files in the OVF package: %s", " ".join(files_list)) |
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self.files_list = files_list
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self.input_dir = input_dir
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self.schema_name = input_name
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def _GetAttributes(self, path, attribute): |
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"""Get specified attribute from all nodes accessible using given path.
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Function follows the path from root node to the desired tags using path,
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then reads the apropriate attribute values.
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@type path: string
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@param path: path of nodes to visit
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@type attribute: string
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@param attribute: attribute for which we gather the information
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@rtype: list
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@return: for each accessible tag with the attribute value set, value of the
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attribute
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"""
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current_list = self.tree.findall(path)
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results = [x.get(attribute) for x in current_list] |
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return filter(None, results) |
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def _GetElementMatchingAttr(self, path, match_attr): |
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"""Searches for element on a path that matches certain attribute value.
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Function follows the path from root node to the desired tags using path,
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then searches for the first one matching the attribute value.
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@type path: string
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@param path: path of nodes to visit
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@type match_attr: tuple
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@param match_attr: pair (attribute, value) for which we search
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@rtype: ET.ElementTree or None
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@return: first element matching match_attr or None if nothing matches
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"""
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potential_elements = self.tree.findall(path)
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(attr, val) = match_attr |
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for elem in potential_elements: |
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if elem.get(attr) == val:
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return elem
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return None |
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def _GetElementMatchingText(self, path, match_text): |
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"""Searches for element on a path that matches certain text value.
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Function follows the path from root node to the desired tags using path,
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then searches for the first one matching the text value.
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@type path: string
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@param path: path of nodes to visit
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@type match_text: tuple
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@param match_text: pair (node, text) for which we search
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@rtype: ET.ElementTree or None
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@return: first element matching match_text or None if nothing matches
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"""
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potential_elements = self.tree.findall(path)
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(node, text) = match_text |
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for elem in potential_elements: |
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if elem.findtext(node) == text:
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return elem
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return None |
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@staticmethod
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def _GetDictParameters(root, schema): |
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"""Reads text in all children and creates the dictionary from the contents.
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@type root: ET.ElementTree or None
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@param root: father of the nodes we want to collect data about
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@type schema: string
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@param schema: schema name to be removed from the tag
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@rtype: dict
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@return: dictionary containing tags and their text contents, tags have their
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schema fragment removed or empty dictionary, when root is None
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"""
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if not root: |
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return {}
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results = {} |
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for element in list(root): |
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pref_len = len("{%s}" % schema) |
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assert(schema in element.tag) |
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tag = element.tag[pref_len:] |
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results[tag] = element.text |
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return results
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def VerifyManifest(self): |
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"""Verifies manifest for the OVF package, if one is given.
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@raise errors.OpPrereqError: if SHA1 checksums do not match
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"""
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if "%s%s" % (self.schema_name, MF_EXT) in self.files_list: |
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logging.warning("Verifying SHA1 checksums, this may take a while")
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manifest_filename = "%s%s" % (self.schema_name, MF_EXT) |
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manifest_path = utils.PathJoin(self.input_dir, manifest_filename)
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manifest_content = utils.ReadFile(manifest_path).splitlines() |
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manifest_files = {} |
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regexp = r"SHA1\((\S+)\)= (\S+)"
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for line in manifest_content: |
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match = re.match(regexp, line) |
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if match:
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file_name = match.group(1)
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sha1_sum = match.group(2)
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manifest_files[file_name] = sha1_sum |
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files_with_paths = [utils.PathJoin(self.input_dir, file_name)
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for file_name in self.files_list] |
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sha1_sums = utils.FingerprintFiles(files_with_paths) |
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for file_name, value in manifest_files.iteritems(): |
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if sha1_sums.get(utils.PathJoin(self.input_dir, file_name)) != value: |
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raise errors.OpPrereqError("SHA1 checksum of %s does not match the" |
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" value in manifest file" % file_name,
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errors.ECODE_ENVIRON) |
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logging.info("SHA1 checksums verified")
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def GetInstanceName(self): |
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"""Provides information about instance name.
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@rtype: string
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@return: instance name string
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"""
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find_name = "{%s}VirtualSystem/{%s}Name" % (OVF_SCHEMA, OVF_SCHEMA)
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return self.tree.findtext(find_name) |
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def GetDiskTemplate(self): |
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"""Returns disk template from .ovf file
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@rtype: string or None
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@return: name of the template
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"""
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find_template = ("{%s}GanetiSection/{%s}DiskTemplate" %
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(GANETI_SCHEMA, GANETI_SCHEMA)) |
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return self.tree.findtext(find_template) |
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def GetHypervisorData(self): |
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"""Provides hypervisor information - hypervisor name and options.
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@rtype: dict
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@return: dictionary containing name of the used hypervisor and all the
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specified options
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"""
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hypervisor_search = ("{%s}GanetiSection/{%s}Hypervisor" %
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(GANETI_SCHEMA, GANETI_SCHEMA)) |
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hypervisor_data = self.tree.find(hypervisor_search)
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if not hypervisor_data: |
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return {"hypervisor_name": constants.VALUE_AUTO} |
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results = { |
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"hypervisor_name": hypervisor_data.findtext("{%s}Name" % GANETI_SCHEMA, |
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default=constants.VALUE_AUTO), |
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} |
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parameters = hypervisor_data.find("{%s}Parameters" % GANETI_SCHEMA)
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results.update(self._GetDictParameters(parameters, GANETI_SCHEMA))
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return results
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def GetOSData(self): |
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""" Provides operating system information - os name and options.
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@rtype: dict
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@return: dictionary containing name and options for the chosen OS
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"""
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results = {} |
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os_search = ("{%s}GanetiSection/{%s}OperatingSystem" %
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(GANETI_SCHEMA, GANETI_SCHEMA)) |
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os_data = self.tree.find(os_search)
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if os_data:
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results["os_name"] = os_data.findtext("{%s}Name" % GANETI_SCHEMA) |
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parameters = os_data.find("{%s}Parameters" % GANETI_SCHEMA)
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results.update(self._GetDictParameters(parameters, GANETI_SCHEMA))
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return results
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def GetBackendData(self): |
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""" Provides backend information - vcpus, memory, auto balancing options.
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@rtype: dict
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@return: dictionary containing options for vcpus, memory and auto balance
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settings
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"""
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results = {} |
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find_vcpus = ("{%s}VirtualSystem/{%s}VirtualHardwareSection/{%s}Item" %
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(OVF_SCHEMA, OVF_SCHEMA, OVF_SCHEMA)) |
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match_vcpus = ("{%s}ResourceType" % RASD_SCHEMA, RASD_TYPE["vcpus"]) |
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vcpus = self._GetElementMatchingText(find_vcpus, match_vcpus)
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if vcpus:
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vcpus_count = vcpus.findtext("{%s}VirtualQuantity" % RASD_SCHEMA,
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default=constants.VALUE_AUTO) |
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else:
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vcpus_count = constants.VALUE_AUTO |
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results["vcpus"] = str(vcpus_count) |
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find_memory = find_vcpus |
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match_memory = ("{%s}ResourceType" % RASD_SCHEMA, RASD_TYPE["memory"]) |
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memory = self._GetElementMatchingText(find_memory, match_memory)
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memory_raw = None
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if memory:
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alloc_units = memory.findtext("{%s}AllocationUnits" % RASD_SCHEMA)
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matching_units = [units for units, variants in ALLOCATION_UNITS.items() |
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if alloc_units.lower() in variants] |
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if matching_units == []:
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raise errors.OpPrereqError("Unit %s for RAM memory unknown" % |
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alloc_units, errors.ECODE_INVAL) |
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units = matching_units[0]
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memory_raw = int(memory.findtext("{%s}VirtualQuantity" % RASD_SCHEMA, |
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default=constants.VALUE_AUTO)) |
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memory_count = CONVERT_UNITS_TO_MB[units](memory_raw) |
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else:
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memory_count = constants.VALUE_AUTO |
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results["memory"] = str(memory_count) |
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find_balance = ("{%s}GanetiSection/{%s}AutoBalance" %
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(GANETI_SCHEMA, GANETI_SCHEMA)) |
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balance = self.tree.findtext(find_balance, default=constants.VALUE_AUTO)
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results["auto_balance"] = balance
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return results
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|
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def GetTagsData(self): |
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"""Provides tags information for instance.
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@rtype: string or None
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@return: string of comma-separated tags for the instance
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"""
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find_tags = "{%s}GanetiSection/{%s}Tags" % (GANETI_SCHEMA, GANETI_SCHEMA)
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results = self.tree.findtext(find_tags)
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if results:
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return results
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else:
|
487 |
return None |
488 |
|
489 |
def GetVersionData(self): |
490 |
"""Provides version number read from .ovf file
|
491 |
|
492 |
@rtype: string
|
493 |
@return: string containing the version number
|
494 |
|
495 |
"""
|
496 |
find_version = ("{%s}GanetiSection/{%s}Version" %
|
497 |
(GANETI_SCHEMA, GANETI_SCHEMA)) |
498 |
return self.tree.findtext(find_version) |
499 |
|
500 |
def GetNetworkData(self): |
501 |
"""Provides data about the network in the OVF instance.
|
502 |
|
503 |
The method gathers the data about networks used by OVF instance. It assumes
|
504 |
that 'name' tag means something - in essence, if it contains one of the
|
505 |
words 'bridged' or 'routed' then that will be the mode of this network in
|
506 |
Ganeti. The information about the network can be either in GanetiSection or
|
507 |
VirtualHardwareSection.
|
508 |
|
509 |
@rtype: dict
|
510 |
@return: dictionary containing all the network information
|
511 |
|
512 |
"""
|
513 |
results = {} |
514 |
networks_search = ("{%s}NetworkSection/{%s}Network" %
|
515 |
(OVF_SCHEMA, OVF_SCHEMA)) |
516 |
network_names = self._GetAttributes(networks_search,
|
517 |
"{%s}name" % OVF_SCHEMA)
|
518 |
required = ["ip", "mac", "link", "mode", "network"] |
519 |
for (counter, network_name) in enumerate(network_names): |
520 |
network_search = ("{%s}VirtualSystem/{%s}VirtualHardwareSection/{%s}Item"
|
521 |
% (OVF_SCHEMA, OVF_SCHEMA, OVF_SCHEMA)) |
522 |
ganeti_search = ("{%s}GanetiSection/{%s}Network/{%s}Nic" %
|
523 |
(GANETI_SCHEMA, GANETI_SCHEMA, GANETI_SCHEMA)) |
524 |
network_match = ("{%s}Connection" % RASD_SCHEMA, network_name)
|
525 |
ganeti_match = ("{%s}name" % OVF_SCHEMA, network_name)
|
526 |
network_data = self._GetElementMatchingText(network_search, network_match)
|
527 |
network_ganeti_data = self._GetElementMatchingAttr(ganeti_search,
|
528 |
ganeti_match) |
529 |
|
530 |
ganeti_data = {} |
531 |
if network_ganeti_data:
|
532 |
ganeti_data["mode"] = network_ganeti_data.findtext("{%s}Mode" % |
533 |
GANETI_SCHEMA) |
534 |
ganeti_data["mac"] = network_ganeti_data.findtext("{%s}MACAddress" % |
535 |
GANETI_SCHEMA) |
536 |
ganeti_data["ip"] = network_ganeti_data.findtext("{%s}IPAddress" % |
537 |
GANETI_SCHEMA) |
538 |
ganeti_data["link"] = network_ganeti_data.findtext("{%s}Link" % |
539 |
GANETI_SCHEMA) |
540 |
ganeti_data["network"] = network_ganeti_data.findtext("{%s}Net" % |
541 |
GANETI_SCHEMA) |
542 |
mac_data = None
|
543 |
if network_data:
|
544 |
mac_data = network_data.findtext("{%s}Address" % RASD_SCHEMA)
|
545 |
|
546 |
network_name = network_name.lower() |
547 |
|
548 |
# First, some not Ganeti-specific information is collected
|
549 |
if constants.NIC_MODE_BRIDGED in network_name: |
550 |
results["nic%s_mode" % counter] = "bridged" |
551 |
elif constants.NIC_MODE_ROUTED in network_name: |
552 |
results["nic%s_mode" % counter] = "routed" |
553 |
results["nic%s_mac" % counter] = mac_data
|
554 |
|
555 |
# GanetiSection data overrides 'manually' collected data
|
556 |
for name, value in ganeti_data.iteritems(): |
557 |
results["nic%s_%s" % (counter, name)] = value
|
558 |
|
559 |
# Bridged network has no IP - unless specifically stated otherwise
|
560 |
if (results.get("nic%s_mode" % counter) == "bridged" and |
561 |
not results.get("nic%s_ip" % counter)): |
562 |
results["nic%s_ip" % counter] = constants.VALUE_NONE
|
563 |
|
564 |
for option in required: |
565 |
if not results.get("nic%s_%s" % (counter, option)): |
566 |
results["nic%s_%s" % (counter, option)] = constants.VALUE_AUTO
|
567 |
|
568 |
if network_names:
|
569 |
results["nic_count"] = str(len(network_names)) |
570 |
return results
|
571 |
|
572 |
def GetDisksNames(self): |
573 |
"""Provides list of file names for the disks used by the instance.
|
574 |
|
575 |
@rtype: list
|
576 |
@return: list of file names, as referenced in .ovf file
|
577 |
|
578 |
"""
|
579 |
results = [] |
580 |
disks_search = "{%s}DiskSection/{%s}Disk" % (OVF_SCHEMA, OVF_SCHEMA)
|
581 |
disk_ids = self._GetAttributes(disks_search, "{%s}fileRef" % OVF_SCHEMA) |
582 |
for disk in disk_ids: |
583 |
disk_search = "{%s}References/{%s}File" % (OVF_SCHEMA, OVF_SCHEMA)
|
584 |
disk_match = ("{%s}id" % OVF_SCHEMA, disk)
|
585 |
disk_elem = self._GetElementMatchingAttr(disk_search, disk_match)
|
586 |
if disk_elem is None: |
587 |
raise errors.OpPrereqError("%s file corrupted - disk %s not found in" |
588 |
" references" % (OVF_EXT, disk),
|
589 |
errors.ECODE_ENVIRON) |
590 |
disk_name = disk_elem.get("{%s}href" % OVF_SCHEMA)
|
591 |
disk_compression = disk_elem.get("{%s}compression" % OVF_SCHEMA)
|
592 |
results.append((disk_name, disk_compression)) |
593 |
return results
|
594 |
|
595 |
|
596 |
def SubElementText(parent, tag, text, attrib={}, **extra): |
597 |
# pylint: disable=W0102
|
598 |
"""This is just a wrapper on ET.SubElement that always has text content.
|
599 |
|
600 |
"""
|
601 |
if text is None: |
602 |
return None |
603 |
elem = ET.SubElement(parent, tag, attrib=attrib, **extra) |
604 |
elem.text = str(text)
|
605 |
return elem
|
606 |
|
607 |
|
608 |
class OVFWriter(object): |
609 |
"""Writer class for OVF files.
|
610 |
|
611 |
@type tree: ET.ElementTree
|
612 |
@ivar tree: XML tree that we are constructing
|
613 |
@type virtual_system_type: string
|
614 |
@ivar virtual_system_type: value of vssd:VirtualSystemType, for external usage
|
615 |
in VMWare this requires to be vmx
|
616 |
@type hardware_list: list
|
617 |
@ivar hardware_list: list of items prepared for VirtualHardwareSection
|
618 |
@type next_instance_id: int
|
619 |
@ivar next_instance_id: next instance id to be used when creating elements on
|
620 |
hardware_list
|
621 |
|
622 |
"""
|
623 |
def __init__(self, has_gnt_section): |
624 |
"""Initialize the writer - set the top element.
|
625 |
|
626 |
@type has_gnt_section: bool
|
627 |
@param has_gnt_section: if the Ganeti schema should be added - i.e. this
|
628 |
means that Ganeti section will be present
|
629 |
|
630 |
"""
|
631 |
env_attribs = { |
632 |
"xmlns:xsi": XML_SCHEMA,
|
633 |
"xmlns:vssd": VSSD_SCHEMA,
|
634 |
"xmlns:rasd": RASD_SCHEMA,
|
635 |
"xmlns:ovf": OVF_SCHEMA,
|
636 |
"xmlns": OVF_SCHEMA,
|
637 |
"xml:lang": "en-US", |
638 |
} |
639 |
if has_gnt_section:
|
640 |
env_attribs["xmlns:gnt"] = GANETI_SCHEMA
|
641 |
self.virtual_system_type = VS_TYPE["ganeti"] |
642 |
else:
|
643 |
self.virtual_system_type = VS_TYPE["external"] |
644 |
self.tree = ET.Element("Envelope", attrib=env_attribs) |
645 |
self.hardware_list = []
|
646 |
# INSTANCE_ID contains statically assigned IDs, starting from 0
|
647 |
self.next_instance_id = len(INSTANCE_ID) # FIXME: hackish |
648 |
|
649 |
def SaveDisksData(self, disks): |
650 |
"""Convert disk information to certain OVF sections.
|
651 |
|
652 |
@type disks: list
|
653 |
@param disks: list of dictionaries of disk options from config.ini
|
654 |
|
655 |
"""
|
656 |
references = ET.SubElement(self.tree, "References") |
657 |
disk_section = ET.SubElement(self.tree, "DiskSection") |
658 |
SubElementText(disk_section, "Info", "Virtual disk information") |
659 |
for counter, disk in enumerate(disks): |
660 |
file_id = "file%s" % counter
|
661 |
disk_id = "disk%s" % counter
|
662 |
file_attribs = { |
663 |
"ovf:href": disk["path"], |
664 |
"ovf:size": str(disk["real-size"]), |
665 |
"ovf:id": file_id,
|
666 |
} |
667 |
disk_attribs = { |
668 |
"ovf:capacity": str(disk["virt-size"]), |
669 |
"ovf:diskId": disk_id,
|
670 |
"ovf:fileRef": file_id,
|
671 |
"ovf:format": DISK_FORMAT.get(disk["format"], disk["format"]), |
672 |
} |
673 |
if "compression" in disk: |
674 |
file_attribs["ovf:compression"] = disk["compression"] |
675 |
ET.SubElement(references, "File", attrib=file_attribs)
|
676 |
ET.SubElement(disk_section, "Disk", attrib=disk_attribs)
|
677 |
|
678 |
# Item in VirtualHardwareSection creation
|
679 |
disk_item = ET.Element("Item")
|
680 |
SubElementText(disk_item, "rasd:ElementName", disk_id)
|
681 |
SubElementText(disk_item, "rasd:HostResource", "ovf:/disk/%s" % disk_id) |
682 |
SubElementText(disk_item, "rasd:InstanceID", self.next_instance_id) |
683 |
SubElementText(disk_item, "rasd:Parent", INSTANCE_ID["scsi"]) |
684 |
SubElementText(disk_item, "rasd:ResourceType", RASD_TYPE["disk"]) |
685 |
self.hardware_list.append(disk_item)
|
686 |
self.next_instance_id += 1 |
687 |
|
688 |
def SaveNetworksData(self, networks): |
689 |
"""Convert network information to NetworkSection.
|
690 |
|
691 |
@type networks: list
|
692 |
@param networks: list of dictionaries of network options form config.ini
|
693 |
|
694 |
"""
|
695 |
network_section = ET.SubElement(self.tree, "NetworkSection") |
696 |
SubElementText(network_section, "Info", "List of logical networks") |
697 |
for counter, network in enumerate(networks): |
698 |
network_name = "%s%s" % (network["mode"], counter) |
699 |
network_attrib = {"ovf:name": network_name}
|
700 |
ET.SubElement(network_section, "Network", attrib=network_attrib)
|
701 |
|
702 |
# Item in VirtualHardwareSection creation
|
703 |
network_item = ET.Element("Item")
|
704 |
SubElementText(network_item, "rasd:Address", network["mac"]) |
705 |
SubElementText(network_item, "rasd:Connection", network_name)
|
706 |
SubElementText(network_item, "rasd:ElementName", network_name)
|
707 |
SubElementText(network_item, "rasd:InstanceID", self.next_instance_id) |
708 |
SubElementText(network_item, "rasd:ResourceType",
|
709 |
RASD_TYPE["ethernet-adapter"])
|
710 |
self.hardware_list.append(network_item)
|
711 |
self.next_instance_id += 1 |
712 |
|
713 |
@staticmethod
|
714 |
def _SaveNameAndParams(root, data): |
715 |
"""Save name and parameters information under root using data.
|
716 |
|
717 |
@type root: ET.Element
|
718 |
@param root: root element for the Name and Parameters
|
719 |
@type data: dict
|
720 |
@param data: data from which we gather the values
|
721 |
|
722 |
"""
|
723 |
assert(data.get("name")) |
724 |
name = SubElementText(root, "gnt:Name", data["name"]) |
725 |
params = ET.SubElement(root, "gnt:Parameters")
|
726 |
for name, value in data.iteritems(): |
727 |
if name != "name": |
728 |
SubElementText(params, "gnt:%s" % name, value)
|
729 |
|
730 |
def SaveGanetiData(self, ganeti, networks): |
731 |
"""Convert Ganeti-specific information to GanetiSection.
|
732 |
|
733 |
@type ganeti: dict
|
734 |
@param ganeti: dictionary of Ganeti-specific options from config.ini
|
735 |
@type networks: list
|
736 |
@param networks: list of dictionaries of network options form config.ini
|
737 |
|
738 |
"""
|
739 |
ganeti_section = ET.SubElement(self.tree, "gnt:GanetiSection") |
740 |
|
741 |
SubElementText(ganeti_section, "gnt:Version", ganeti.get("version")) |
742 |
SubElementText(ganeti_section, "gnt:DiskTemplate",
|
743 |
ganeti.get("disk_template"))
|
744 |
SubElementText(ganeti_section, "gnt:AutoBalance",
|
745 |
ganeti.get("auto_balance"))
|
746 |
SubElementText(ganeti_section, "gnt:Tags", ganeti.get("tags")) |
747 |
|
748 |
osys = ET.SubElement(ganeti_section, "gnt:OperatingSystem")
|
749 |
self._SaveNameAndParams(osys, ganeti["os"]) |
750 |
|
751 |
hypervisor = ET.SubElement(ganeti_section, "gnt:Hypervisor")
|
752 |
self._SaveNameAndParams(hypervisor, ganeti["hypervisor"]) |
753 |
|
754 |
network_section = ET.SubElement(ganeti_section, "gnt:Network")
|
755 |
for counter, network in enumerate(networks): |
756 |
network_name = "%s%s" % (network["mode"], counter) |
757 |
nic_attrib = {"ovf:name": network_name}
|
758 |
nic = ET.SubElement(network_section, "gnt:Nic", attrib=nic_attrib)
|
759 |
SubElementText(nic, "gnt:Mode", network["mode"]) |
760 |
SubElementText(nic, "gnt:MACAddress", network["mac"]) |
761 |
SubElementText(nic, "gnt:IPAddress", network["ip"]) |
762 |
SubElementText(nic, "gnt:Link", network["link"]) |
763 |
SubElementText(nic, "gnt:Net", network["network"]) |
764 |
|
765 |
def SaveVirtualSystemData(self, name, vcpus, memory): |
766 |
"""Convert virtual system information to OVF sections.
|
767 |
|
768 |
@type name: string
|
769 |
@param name: name of the instance
|
770 |
@type vcpus: int
|
771 |
@param vcpus: number of VCPUs
|
772 |
@type memory: int
|
773 |
@param memory: RAM memory in MB
|
774 |
|
775 |
"""
|
776 |
assert(vcpus > 0) |
777 |
assert(memory > 0) |
778 |
vs_attrib = {"ovf:id": name}
|
779 |
virtual_system = ET.SubElement(self.tree, "VirtualSystem", attrib=vs_attrib) |
780 |
SubElementText(virtual_system, "Info", "A virtual machine") |
781 |
|
782 |
name_section = ET.SubElement(virtual_system, "Name")
|
783 |
name_section.text = name |
784 |
os_attrib = {"ovf:id": "0"} |
785 |
os_section = ET.SubElement(virtual_system, "OperatingSystemSection",
|
786 |
attrib=os_attrib) |
787 |
SubElementText(os_section, "Info", "Installed guest operating system") |
788 |
hardware_section = ET.SubElement(virtual_system, "VirtualHardwareSection")
|
789 |
SubElementText(hardware_section, "Info", "Virtual hardware requirements") |
790 |
|
791 |
# System description
|
792 |
system = ET.SubElement(hardware_section, "System")
|
793 |
SubElementText(system, "vssd:ElementName", "Virtual Hardware Family") |
794 |
SubElementText(system, "vssd:InstanceID", INSTANCE_ID["system"]) |
795 |
SubElementText(system, "vssd:VirtualSystemIdentifier", name)
|
796 |
SubElementText(system, "vssd:VirtualSystemType", self.virtual_system_type) |
797 |
|
798 |
# Item for vcpus
|
799 |
vcpus_item = ET.SubElement(hardware_section, "Item")
|
800 |
SubElementText(vcpus_item, "rasd:ElementName",
|
801 |
"%s virtual CPU(s)" % vcpus)
|
802 |
SubElementText(vcpus_item, "rasd:InstanceID", INSTANCE_ID["vcpus"]) |
803 |
SubElementText(vcpus_item, "rasd:ResourceType", RASD_TYPE["vcpus"]) |
804 |
SubElementText(vcpus_item, "rasd:VirtualQuantity", vcpus)
|
805 |
|
806 |
# Item for memory
|
807 |
memory_item = ET.SubElement(hardware_section, "Item")
|
808 |
SubElementText(memory_item, "rasd:AllocationUnits", "byte * 2^20") |
809 |
SubElementText(memory_item, "rasd:ElementName", "%sMB of memory" % memory) |
810 |
SubElementText(memory_item, "rasd:InstanceID", INSTANCE_ID["memory"]) |
811 |
SubElementText(memory_item, "rasd:ResourceType", RASD_TYPE["memory"]) |
812 |
SubElementText(memory_item, "rasd:VirtualQuantity", memory)
|
813 |
|
814 |
# Item for scsi controller
|
815 |
scsi_item = ET.SubElement(hardware_section, "Item")
|
816 |
SubElementText(scsi_item, "rasd:Address", INSTANCE_ID["system"]) |
817 |
SubElementText(scsi_item, "rasd:ElementName", "scsi_controller0") |
818 |
SubElementText(scsi_item, "rasd:InstanceID", INSTANCE_ID["scsi"]) |
819 |
SubElementText(scsi_item, "rasd:ResourceSubType", SCSI_SUBTYPE)
|
820 |
SubElementText(scsi_item, "rasd:ResourceType", RASD_TYPE["scsi-controller"]) |
821 |
|
822 |
# Other items - from self.hardware_list
|
823 |
for item in self.hardware_list: |
824 |
hardware_section.append(item) |
825 |
|
826 |
def PrettyXmlDump(self): |
827 |
"""Formatter of the XML file.
|
828 |
|
829 |
@rtype: string
|
830 |
@return: XML tree in the form of nicely-formatted string
|
831 |
|
832 |
"""
|
833 |
raw_string = ET.tostring(self.tree)
|
834 |
parsed_xml = xml.dom.minidom.parseString(raw_string) |
835 |
xml_string = parsed_xml.toprettyxml(indent=" ")
|
836 |
text_re = re.compile(">\n\s+([^<>\s].*?)\n\s+</", re.DOTALL)
|
837 |
return text_re.sub(">\g<1></", xml_string) |
838 |
|
839 |
|
840 |
class Converter(object): |
841 |
"""Converter class for OVF packages.
|
842 |
|
843 |
Converter is a class above both ImporterOVF and ExporterOVF. It's purpose is
|
844 |
to provide a common interface for the two.
|
845 |
|
846 |
@type options: optparse.Values
|
847 |
@ivar options: options parsed from the command line
|
848 |
@type output_dir: string
|
849 |
@ivar output_dir: directory to which the results of conversion shall be
|
850 |
written
|
851 |
@type temp_file_manager: L{utils.TemporaryFileManager}
|
852 |
@ivar temp_file_manager: container for temporary files created during
|
853 |
conversion
|
854 |
@type temp_dir: string
|
855 |
@ivar temp_dir: temporary directory created then we deal with OVA
|
856 |
|
857 |
"""
|
858 |
def __init__(self, input_path, options): |
859 |
"""Initialize the converter.
|
860 |
|
861 |
@type input_path: string
|
862 |
@param input_path: path to the Converter input file
|
863 |
@type options: optparse.Values
|
864 |
@param options: command line options
|
865 |
|
866 |
@raise errors.OpPrereqError: if file does not exist
|
867 |
|
868 |
"""
|
869 |
input_path = os.path.abspath(input_path) |
870 |
if not os.path.isfile(input_path): |
871 |
raise errors.OpPrereqError("File does not exist: %s" % input_path, |
872 |
errors.ECODE_ENVIRON) |
873 |
self.options = options
|
874 |
self.temp_file_manager = utils.TemporaryFileManager()
|
875 |
self.temp_dir = None |
876 |
self.output_dir = None |
877 |
self._ReadInputData(input_path)
|
878 |
|
879 |
def _ReadInputData(self, input_path): |
880 |
"""Reads the data on which the conversion will take place.
|
881 |
|
882 |
@type input_path: string
|
883 |
@param input_path: absolute path to the Converter input file
|
884 |
|
885 |
"""
|
886 |
raise NotImplementedError() |
887 |
|
888 |
def _CompressDisk(self, disk_path, compression, action): |
889 |
"""Performs (de)compression on the disk and returns the new path
|
890 |
|
891 |
@type disk_path: string
|
892 |
@param disk_path: path to the disk
|
893 |
@type compression: string
|
894 |
@param compression: compression type
|
895 |
@type action: string
|
896 |
@param action: whether the action is compression or decompression
|
897 |
@rtype: string
|
898 |
@return: new disk path after (de)compression
|
899 |
|
900 |
@raise errors.OpPrereqError: disk (de)compression failed or "compression"
|
901 |
is not supported
|
902 |
|
903 |
"""
|
904 |
assert(action in ALLOWED_ACTIONS) |
905 |
# For now we only support gzip, as it is used in ovftool
|
906 |
if compression != COMPRESSION_TYPE:
|
907 |
raise errors.OpPrereqError("Unsupported compression type: %s" |
908 |
% compression, errors.ECODE_INVAL) |
909 |
disk_file = os.path.basename(disk_path) |
910 |
if action == DECOMPRESS:
|
911 |
(disk_name, _) = os.path.splitext(disk_file) |
912 |
prefix = disk_name |
913 |
elif action == COMPRESS:
|
914 |
prefix = disk_file |
915 |
new_path = utils.GetClosedTempfile(suffix=COMPRESSION_EXT, prefix=prefix, |
916 |
dir=self.output_dir)
|
917 |
self.temp_file_manager.Add(new_path)
|
918 |
args = ["gzip", "-c", disk_path] |
919 |
run_result = utils.RunCmd(args, output=new_path) |
920 |
if run_result.failed:
|
921 |
raise errors.OpPrereqError("Disk %s failed with output: %s" |
922 |
% (action, run_result.stderr), |
923 |
errors.ECODE_ENVIRON) |
924 |
logging.info("The %s of the disk is completed", action)
|
925 |
return (COMPRESSION_EXT, new_path)
|
926 |
|
927 |
def _ConvertDisk(self, disk_format, disk_path): |
928 |
"""Performes conversion to specified format.
|
929 |
|
930 |
@type disk_format: string
|
931 |
@param disk_format: format to which the disk should be converted
|
932 |
@type disk_path: string
|
933 |
@param disk_path: path to the disk that should be converted
|
934 |
@rtype: string
|
935 |
@return path to the output disk
|
936 |
|
937 |
@raise errors.OpPrereqError: convertion of the disk failed
|
938 |
|
939 |
"""
|
940 |
CheckQemuImg() |
941 |
disk_file = os.path.basename(disk_path) |
942 |
(disk_name, disk_extension) = os.path.splitext(disk_file) |
943 |
if disk_extension != disk_format:
|
944 |
logging.warning("Conversion of disk image to %s format, this may take"
|
945 |
" a while", disk_format)
|
946 |
|
947 |
new_disk_path = utils.GetClosedTempfile( |
948 |
suffix=".%s" % disk_format, prefix=disk_name, dir=self.output_dir) |
949 |
self.temp_file_manager.Add(new_disk_path)
|
950 |
args = [ |
951 |
constants.QEMUIMG_PATH, |
952 |
"convert",
|
953 |
"-O",
|
954 |
disk_format, |
955 |
disk_path, |
956 |
new_disk_path, |
957 |
] |
958 |
run_result = utils.RunCmd(args, cwd=os.getcwd()) |
959 |
if run_result.failed:
|
960 |
raise errors.OpPrereqError("Convertion to %s failed, qemu-img output was" |
961 |
": %s" % (disk_format, run_result.stderr),
|
962 |
errors.ECODE_ENVIRON) |
963 |
return (".%s" % disk_format, new_disk_path) |
964 |
|
965 |
@staticmethod
|
966 |
def _GetDiskQemuInfo(disk_path, regexp): |
967 |
"""Figures out some information of the disk using qemu-img.
|
968 |
|
969 |
@type disk_path: string
|
970 |
@param disk_path: path to the disk we want to know the format of
|
971 |
@type regexp: string
|
972 |
@param regexp: string that has to be matched, it has to contain one group
|
973 |
@rtype: string
|
974 |
@return: disk format
|
975 |
|
976 |
@raise errors.OpPrereqError: format information cannot be retrieved
|
977 |
|
978 |
"""
|
979 |
CheckQemuImg() |
980 |
args = [constants.QEMUIMG_PATH, "info", disk_path]
|
981 |
run_result = utils.RunCmd(args, cwd=os.getcwd()) |
982 |
if run_result.failed:
|
983 |
raise errors.OpPrereqError("Gathering info about the disk using qemu-img" |
984 |
" failed, output was: %s" % run_result.stderr,
|
985 |
errors.ECODE_ENVIRON) |
986 |
result = run_result.output |
987 |
regexp = r"%s" % regexp
|
988 |
match = re.search(regexp, result) |
989 |
if match:
|
990 |
disk_format = match.group(1)
|
991 |
else:
|
992 |
raise errors.OpPrereqError("No file information matching %s found in:" |
993 |
" %s" % (regexp, result),
|
994 |
errors.ECODE_ENVIRON) |
995 |
return disk_format
|
996 |
|
997 |
def Parse(self): |
998 |
"""Parses the data and creates a structure containing all required info.
|
999 |
|
1000 |
"""
|
1001 |
raise NotImplementedError() |
1002 |
|
1003 |
def Save(self): |
1004 |
"""Saves the gathered configuration in an apropriate format.
|
1005 |
|
1006 |
"""
|
1007 |
raise NotImplementedError() |
1008 |
|
1009 |
def Cleanup(self): |
1010 |
"""Cleans the temporary directory, if one was created.
|
1011 |
|
1012 |
"""
|
1013 |
self.temp_file_manager.Cleanup()
|
1014 |
if self.temp_dir: |
1015 |
shutil.rmtree(self.temp_dir)
|
1016 |
self.temp_dir = None |
1017 |
|
1018 |
|
1019 |
class OVFImporter(Converter): |
1020 |
"""Converter from OVF to Ganeti config file.
|
1021 |
|
1022 |
@type input_dir: string
|
1023 |
@ivar input_dir: directory in which the .ovf file resides
|
1024 |
@type output_dir: string
|
1025 |
@ivar output_dir: directory to which the results of conversion shall be
|
1026 |
written
|
1027 |
@type input_path: string
|
1028 |
@ivar input_path: complete path to the .ovf file
|
1029 |
@type ovf_reader: L{OVFReader}
|
1030 |
@ivar ovf_reader: OVF reader instance collects data from .ovf file
|
1031 |
@type results_name: string
|
1032 |
@ivar results_name: name of imported instance
|
1033 |
@type results_template: string
|
1034 |
@ivar results_template: disk template read from .ovf file or command line
|
1035 |
arguments
|
1036 |
@type results_hypervisor: dict
|
1037 |
@ivar results_hypervisor: hypervisor information gathered from .ovf file or
|
1038 |
command line arguments
|
1039 |
@type results_os: dict
|
1040 |
@ivar results_os: operating system information gathered from .ovf file or
|
1041 |
command line arguments
|
1042 |
@type results_backend: dict
|
1043 |
@ivar results_backend: backend information gathered from .ovf file or
|
1044 |
command line arguments
|
1045 |
@type results_tags: string
|
1046 |
@ivar results_tags: string containing instance-specific tags
|
1047 |
@type results_version: string
|
1048 |
@ivar results_version: version as required by Ganeti import
|
1049 |
@type results_network: dict
|
1050 |
@ivar results_network: network information gathered from .ovf file or command
|
1051 |
line arguments
|
1052 |
@type results_disk: dict
|
1053 |
@ivar results_disk: disk information gathered from .ovf file or command line
|
1054 |
arguments
|
1055 |
|
1056 |
"""
|
1057 |
def _ReadInputData(self, input_path): |
1058 |
"""Reads the data on which the conversion will take place.
|
1059 |
|
1060 |
@type input_path: string
|
1061 |
@param input_path: absolute path to the .ovf or .ova input file
|
1062 |
|
1063 |
@raise errors.OpPrereqError: if input file is neither .ovf nor .ova
|
1064 |
|
1065 |
"""
|
1066 |
(input_dir, input_file) = os.path.split(input_path) |
1067 |
(_, input_extension) = os.path.splitext(input_file) |
1068 |
|
1069 |
if input_extension == OVF_EXT:
|
1070 |
logging.info("%s file extension found, no unpacking necessary", OVF_EXT)
|
1071 |
self.input_dir = input_dir
|
1072 |
self.input_path = input_path
|
1073 |
self.temp_dir = None |
1074 |
elif input_extension == OVA_EXT:
|
1075 |
logging.info("%s file extension found, proceeding to unpacking", OVA_EXT)
|
1076 |
self._UnpackOVA(input_path)
|
1077 |
else:
|
1078 |
raise errors.OpPrereqError("Unknown file extension; expected %s or %s" |
1079 |
" file" % (OVA_EXT, OVF_EXT),
|
1080 |
errors.ECODE_INVAL) |
1081 |
assert ((input_extension == OVA_EXT and self.temp_dir) or |
1082 |
(input_extension == OVF_EXT and not self.temp_dir)) |
1083 |
assert self.input_dir in self.input_path |
1084 |
|
1085 |
if self.options.output_dir: |
1086 |
self.output_dir = os.path.abspath(self.options.output_dir) |
1087 |
if (os.path.commonprefix([pathutils.EXPORT_DIR, self.output_dir]) != |
1088 |
pathutils.EXPORT_DIR): |
1089 |
logging.warning("Export path is not under %s directory, import to"
|
1090 |
" Ganeti using gnt-backup may fail",
|
1091 |
pathutils.EXPORT_DIR) |
1092 |
else:
|
1093 |
self.output_dir = pathutils.EXPORT_DIR
|
1094 |
|
1095 |
self.ovf_reader = OVFReader(self.input_path) |
1096 |
self.ovf_reader.VerifyManifest()
|
1097 |
|
1098 |
def _UnpackOVA(self, input_path): |
1099 |
"""Unpacks the .ova package into temporary directory.
|
1100 |
|
1101 |
@type input_path: string
|
1102 |
@param input_path: path to the .ova package file
|
1103 |
|
1104 |
@raise errors.OpPrereqError: if file is not a proper tarball, one of the
|
1105 |
files in the archive seem malicious (e.g. path starts with '../') or
|
1106 |
.ova package does not contain .ovf file
|
1107 |
|
1108 |
"""
|
1109 |
input_name = None
|
1110 |
if not tarfile.is_tarfile(input_path): |
1111 |
raise errors.OpPrereqError("The provided %s file is not a proper tar" |
1112 |
" archive" % OVA_EXT, errors.ECODE_ENVIRON)
|
1113 |
ova_content = tarfile.open(input_path) |
1114 |
temp_dir = tempfile.mkdtemp() |
1115 |
self.temp_dir = temp_dir
|
1116 |
for file_name in ova_content.getnames(): |
1117 |
file_normname = os.path.normpath(file_name) |
1118 |
try:
|
1119 |
utils.PathJoin(temp_dir, file_normname) |
1120 |
except ValueError, err: |
1121 |
raise errors.OpPrereqError("File %s inside %s package is not safe" % |
1122 |
(file_name, OVA_EXT), errors.ECODE_ENVIRON) |
1123 |
if file_name.endswith(OVF_EXT):
|
1124 |
input_name = file_name |
1125 |
if not input_name: |
1126 |
raise errors.OpPrereqError("No %s file in %s package found" % |
1127 |
(OVF_EXT, OVA_EXT), errors.ECODE_ENVIRON) |
1128 |
logging.warning("Unpacking the %s archive, this may take a while",
|
1129 |
input_path) |
1130 |
self.input_dir = temp_dir
|
1131 |
self.input_path = utils.PathJoin(self.temp_dir, input_name) |
1132 |
try:
|
1133 |
try:
|
1134 |
extract = ova_content.extractall |
1135 |
except AttributeError: |
1136 |
# This is a prehistorical case of using python < 2.5
|
1137 |
for member in ova_content.getmembers(): |
1138 |
ova_content.extract(member, path=self.temp_dir)
|
1139 |
else:
|
1140 |
extract(self.temp_dir)
|
1141 |
except tarfile.TarError, err:
|
1142 |
raise errors.OpPrereqError("Error while extracting %s archive: %s" % |
1143 |
(OVA_EXT, err), errors.ECODE_ENVIRON) |
1144 |
logging.info("OVA package extracted to %s directory", self.temp_dir) |
1145 |
|
1146 |
def Parse(self): |
1147 |
"""Parses the data and creates a structure containing all required info.
|
1148 |
|
1149 |
The method reads the information given either as a command line option or as
|
1150 |
a part of the OVF description.
|
1151 |
|
1152 |
@raise errors.OpPrereqError: if some required part of the description of
|
1153 |
virtual instance is missing or unable to create output directory
|
1154 |
|
1155 |
"""
|
1156 |
self.results_name = self._GetInfo("instance name", self.options.name, |
1157 |
self._ParseNameOptions,
|
1158 |
self.ovf_reader.GetInstanceName)
|
1159 |
if not self.results_name: |
1160 |
raise errors.OpPrereqError("Name of instance not provided", |
1161 |
errors.ECODE_INVAL) |
1162 |
|
1163 |
self.output_dir = utils.PathJoin(self.output_dir, self.results_name) |
1164 |
try:
|
1165 |
utils.Makedirs(self.output_dir)
|
1166 |
except OSError, err: |
1167 |
raise errors.OpPrereqError("Failed to create directory %s: %s" % |
1168 |
(self.output_dir, err), errors.ECODE_ENVIRON)
|
1169 |
|
1170 |
self.results_template = self._GetInfo( |
1171 |
"disk template", self.options.disk_template, self._ParseTemplateOptions, |
1172 |
self.ovf_reader.GetDiskTemplate)
|
1173 |
if not self.results_template: |
1174 |
logging.info("Disk template not given")
|
1175 |
|
1176 |
self.results_hypervisor = self._GetInfo( |
1177 |
"hypervisor", self.options.hypervisor, self._ParseHypervisorOptions, |
1178 |
self.ovf_reader.GetHypervisorData)
|
1179 |
assert self.results_hypervisor["hypervisor_name"] |
1180 |
if self.results_hypervisor["hypervisor_name"] == constants.VALUE_AUTO: |
1181 |
logging.debug("Default hypervisor settings from the cluster will be used")
|
1182 |
|
1183 |
self.results_os = self._GetInfo( |
1184 |
"OS", self.options.os, self._ParseOSOptions, self.ovf_reader.GetOSData) |
1185 |
if not self.results_os.get("os_name"): |
1186 |
raise errors.OpPrereqError("OS name must be provided", |
1187 |
errors.ECODE_INVAL) |
1188 |
|
1189 |
self.results_backend = self._GetInfo( |
1190 |
"backend", self.options.beparams, |
1191 |
self._ParseBackendOptions, self.ovf_reader.GetBackendData) |
1192 |
assert self.results_backend.get("vcpus") |
1193 |
assert self.results_backend.get("memory") |
1194 |
assert self.results_backend.get("auto_balance") is not None |
1195 |
|
1196 |
self.results_tags = self._GetInfo( |
1197 |
"tags", self.options.tags, self._ParseTags, self.ovf_reader.GetTagsData) |
1198 |
|
1199 |
ovf_version = self.ovf_reader.GetVersionData()
|
1200 |
if ovf_version:
|
1201 |
self.results_version = ovf_version
|
1202 |
else:
|
1203 |
self.results_version = constants.EXPORT_VERSION
|
1204 |
|
1205 |
self.results_network = self._GetInfo( |
1206 |
"network", self.options.nics, self._ParseNicOptions, |
1207 |
self.ovf_reader.GetNetworkData, ignore_test=self.options.no_nics) |
1208 |
|
1209 |
self.results_disk = self._GetInfo( |
1210 |
"disk", self.options.disks, self._ParseDiskOptions, self._GetDiskInfo, |
1211 |
ignore_test=self.results_template == constants.DT_DISKLESS)
|
1212 |
|
1213 |
if not self.results_disk and not self.results_network: |
1214 |
raise errors.OpPrereqError("Either disk specification or network" |
1215 |
" description must be present",
|
1216 |
errors.ECODE_STATE) |
1217 |
|
1218 |
@staticmethod
|
1219 |
def _GetInfo(name, cmd_arg, cmd_function, nocmd_function, |
1220 |
ignore_test=False):
|
1221 |
"""Get information about some section - e.g. disk, network, hypervisor.
|
1222 |
|
1223 |
@type name: string
|
1224 |
@param name: name of the section
|
1225 |
@type cmd_arg: dict
|
1226 |
@param cmd_arg: command line argument specific for section 'name'
|
1227 |
@type cmd_function: callable
|
1228 |
@param cmd_function: function to call if 'cmd_args' exists
|
1229 |
@type nocmd_function: callable
|
1230 |
@param nocmd_function: function to call if 'cmd_args' is not there
|
1231 |
|
1232 |
"""
|
1233 |
if ignore_test:
|
1234 |
logging.info("Information for %s will be ignored", name)
|
1235 |
return {}
|
1236 |
if cmd_arg:
|
1237 |
logging.info("Information for %s will be parsed from command line", name)
|
1238 |
results = cmd_function() |
1239 |
else:
|
1240 |
logging.info("Information for %s will be parsed from %s file",
|
1241 |
name, OVF_EXT) |
1242 |
results = nocmd_function() |
1243 |
logging.info("Options for %s were succesfully read", name)
|
1244 |
return results
|
1245 |
|
1246 |
def _ParseNameOptions(self): |
1247 |
"""Returns name if one was given in command line.
|
1248 |
|
1249 |
@rtype: string
|
1250 |
@return: name of an instance
|
1251 |
|
1252 |
"""
|
1253 |
return self.options.name |
1254 |
|
1255 |
def _ParseTemplateOptions(self): |
1256 |
"""Returns disk template if one was given in command line.
|
1257 |
|
1258 |
@rtype: string
|
1259 |
@return: disk template name
|
1260 |
|
1261 |
"""
|
1262 |
return self.options.disk_template |
1263 |
|
1264 |
def _ParseHypervisorOptions(self): |
1265 |
"""Parses hypervisor options given in a command line.
|
1266 |
|
1267 |
@rtype: dict
|
1268 |
@return: dictionary containing name of the chosen hypervisor and all the
|
1269 |
options
|
1270 |
|
1271 |
"""
|
1272 |
assert type(self.options.hypervisor) is tuple |
1273 |
assert len(self.options.hypervisor) == 2 |
1274 |
results = {} |
1275 |
if self.options.hypervisor[0]: |
1276 |
results["hypervisor_name"] = self.options.hypervisor[0] |
1277 |
else:
|
1278 |
results["hypervisor_name"] = constants.VALUE_AUTO
|
1279 |
results.update(self.options.hypervisor[1]) |
1280 |
return results
|
1281 |
|
1282 |
def _ParseOSOptions(self): |
1283 |
"""Parses OS options given in command line.
|
1284 |
|
1285 |
@rtype: dict
|
1286 |
@return: dictionary containing name of chosen OS and all its options
|
1287 |
|
1288 |
"""
|
1289 |
assert self.options.os |
1290 |
results = {} |
1291 |
results["os_name"] = self.options.os |
1292 |
results.update(self.options.osparams)
|
1293 |
return results
|
1294 |
|
1295 |
def _ParseBackendOptions(self): |
1296 |
"""Parses backend options given in command line.
|
1297 |
|
1298 |
@rtype: dict
|
1299 |
@return: dictionary containing vcpus, memory and auto-balance options
|
1300 |
|
1301 |
"""
|
1302 |
assert self.options.beparams |
1303 |
backend = {} |
1304 |
backend.update(self.options.beparams)
|
1305 |
must_contain = ["vcpus", "memory", "auto_balance"] |
1306 |
for element in must_contain: |
1307 |
if backend.get(element) is None: |
1308 |
backend[element] = constants.VALUE_AUTO |
1309 |
return backend
|
1310 |
|
1311 |
def _ParseTags(self): |
1312 |
"""Returns tags list given in command line.
|
1313 |
|
1314 |
@rtype: string
|
1315 |
@return: string containing comma-separated tags
|
1316 |
|
1317 |
"""
|
1318 |
return self.options.tags |
1319 |
|
1320 |
def _ParseNicOptions(self): |
1321 |
"""Parses network options given in a command line or as a dictionary.
|
1322 |
|
1323 |
@rtype: dict
|
1324 |
@return: dictionary of network-related options
|
1325 |
|
1326 |
"""
|
1327 |
assert self.options.nics |
1328 |
results = {} |
1329 |
for (nic_id, nic_desc) in self.options.nics: |
1330 |
results["nic%s_mode" % nic_id] = \
|
1331 |
nic_desc.get("mode", constants.VALUE_AUTO)
|
1332 |
results["nic%s_mac" % nic_id] = nic_desc.get("mac", constants.VALUE_AUTO) |
1333 |
results["nic%s_link" % nic_id] = \
|
1334 |
nic_desc.get("link", constants.VALUE_AUTO)
|
1335 |
results["nic%s_network" % nic_id] = \
|
1336 |
nic_desc.get("network", constants.VALUE_AUTO)
|
1337 |
if nic_desc.get("mode") == "bridged": |
1338 |
results["nic%s_ip" % nic_id] = constants.VALUE_NONE
|
1339 |
else:
|
1340 |
results["nic%s_ip" % nic_id] = constants.VALUE_AUTO
|
1341 |
results["nic_count"] = str(len(self.options.nics)) |
1342 |
return results
|
1343 |
|
1344 |
def _ParseDiskOptions(self): |
1345 |
"""Parses disk options given in a command line.
|
1346 |
|
1347 |
@rtype: dict
|
1348 |
@return: dictionary of disk-related options
|
1349 |
|
1350 |
@raise errors.OpPrereqError: disk description does not contain size
|
1351 |
information or size information is invalid or creation failed
|
1352 |
|
1353 |
"""
|
1354 |
CheckQemuImg() |
1355 |
assert self.options.disks |
1356 |
results = {} |
1357 |
for (disk_id, disk_desc) in self.options.disks: |
1358 |
results["disk%s_ivname" % disk_id] = "disk/%s" % disk_id |
1359 |
if disk_desc.get("size"): |
1360 |
try:
|
1361 |
disk_size = utils.ParseUnit(disk_desc["size"])
|
1362 |
except ValueError: |
1363 |
raise errors.OpPrereqError("Invalid disk size for disk %s: %s" % |
1364 |
(disk_id, disk_desc["size"]),
|
1365 |
errors.ECODE_INVAL) |
1366 |
new_path = utils.PathJoin(self.output_dir, str(disk_id)) |
1367 |
args = [ |
1368 |
constants.QEMUIMG_PATH, |
1369 |
"create",
|
1370 |
"-f",
|
1371 |
"raw",
|
1372 |
new_path, |
1373 |
disk_size, |
1374 |
] |
1375 |
run_result = utils.RunCmd(args) |
1376 |
if run_result.failed:
|
1377 |
raise errors.OpPrereqError("Creation of disk %s failed, output was:" |
1378 |
" %s" % (new_path, run_result.stderr),
|
1379 |
errors.ECODE_ENVIRON) |
1380 |
results["disk%s_size" % disk_id] = str(disk_size) |
1381 |
results["disk%s_dump" % disk_id] = "disk%s.raw" % disk_id |
1382 |
else:
|
1383 |
raise errors.OpPrereqError("Disks created for import must have their" |
1384 |
" size specified",
|
1385 |
errors.ECODE_INVAL) |
1386 |
results["disk_count"] = str(len(self.options.disks)) |
1387 |
return results
|
1388 |
|
1389 |
def _GetDiskInfo(self): |
1390 |
"""Gathers information about disks used by instance, perfomes conversion.
|
1391 |
|
1392 |
@rtype: dict
|
1393 |
@return: dictionary of disk-related options
|
1394 |
|
1395 |
@raise errors.OpPrereqError: disk is not in the same directory as .ovf file
|
1396 |
|
1397 |
"""
|
1398 |
results = {} |
1399 |
disks_list = self.ovf_reader.GetDisksNames()
|
1400 |
for (counter, (disk_name, disk_compression)) in enumerate(disks_list): |
1401 |
if os.path.dirname(disk_name):
|
1402 |
raise errors.OpPrereqError("Disks are not allowed to have absolute" |
1403 |
" paths or paths outside main OVF"
|
1404 |
" directory", errors.ECODE_ENVIRON)
|
1405 |
disk, _ = os.path.splitext(disk_name) |
1406 |
disk_path = utils.PathJoin(self.input_dir, disk_name)
|
1407 |
if disk_compression not in NO_COMPRESSION: |
1408 |
_, disk_path = self._CompressDisk(disk_path, disk_compression,
|
1409 |
DECOMPRESS) |
1410 |
disk, _ = os.path.splitext(disk) |
1411 |
if self._GetDiskQemuInfo(disk_path, "file format: (\S+)") != "raw": |
1412 |
logging.info("Conversion to raw format is required")
|
1413 |
ext, new_disk_path = self._ConvertDisk("raw", disk_path) |
1414 |
|
1415 |
final_disk_path = LinkFile(new_disk_path, prefix=disk, suffix=ext, |
1416 |
directory=self.output_dir)
|
1417 |
final_name = os.path.basename(final_disk_path) |
1418 |
disk_size = os.path.getsize(final_disk_path) / (1024 * 1024) |
1419 |
results["disk%s_dump" % counter] = final_name
|
1420 |
results["disk%s_size" % counter] = str(disk_size) |
1421 |
results["disk%s_ivname" % counter] = "disk/%s" % str(counter) |
1422 |
if disks_list:
|
1423 |
results["disk_count"] = str(len(disks_list)) |
1424 |
return results
|
1425 |
|
1426 |
def Save(self): |
1427 |
"""Saves all the gathered information in a constant.EXPORT_CONF_FILE file.
|
1428 |
|
1429 |
@raise errors.OpPrereqError: when saving to config file failed
|
1430 |
|
1431 |
"""
|
1432 |
logging.info("Conversion was succesfull, saving %s in %s directory",
|
1433 |
constants.EXPORT_CONF_FILE, self.output_dir)
|
1434 |
results = { |
1435 |
constants.INISECT_INS: {}, |
1436 |
constants.INISECT_BEP: {}, |
1437 |
constants.INISECT_EXP: {}, |
1438 |
constants.INISECT_OSP: {}, |
1439 |
constants.INISECT_HYP: {}, |
1440 |
} |
1441 |
|
1442 |
results[constants.INISECT_INS].update(self.results_disk)
|
1443 |
results[constants.INISECT_INS].update(self.results_network)
|
1444 |
results[constants.INISECT_INS]["hypervisor"] = \
|
1445 |
self.results_hypervisor["hypervisor_name"] |
1446 |
results[constants.INISECT_INS]["name"] = self.results_name |
1447 |
if self.results_template: |
1448 |
results[constants.INISECT_INS]["disk_template"] = self.results_template |
1449 |
if self.results_tags: |
1450 |
results[constants.INISECT_INS]["tags"] = self.results_tags |
1451 |
|
1452 |
results[constants.INISECT_BEP].update(self.results_backend)
|
1453 |
|
1454 |
results[constants.INISECT_EXP]["os"] = self.results_os["os_name"] |
1455 |
results[constants.INISECT_EXP]["version"] = self.results_version |
1456 |
|
1457 |
del self.results_os["os_name"] |
1458 |
results[constants.INISECT_OSP].update(self.results_os)
|
1459 |
|
1460 |
del self.results_hypervisor["hypervisor_name"] |
1461 |
results[constants.INISECT_HYP].update(self.results_hypervisor)
|
1462 |
|
1463 |
output_file_name = utils.PathJoin(self.output_dir,
|
1464 |
constants.EXPORT_CONF_FILE) |
1465 |
|
1466 |
output = [] |
1467 |
for section, options in results.iteritems(): |
1468 |
output.append("[%s]" % section)
|
1469 |
for name, value in options.iteritems(): |
1470 |
if value is None: |
1471 |
value = ""
|
1472 |
output.append("%s = %s" % (name, value))
|
1473 |
output.append("")
|
1474 |
output_contents = "\n".join(output)
|
1475 |
|
1476 |
try:
|
1477 |
utils.WriteFile(output_file_name, data=output_contents) |
1478 |
except errors.ProgrammerError, err:
|
1479 |
raise errors.OpPrereqError("Saving the config file failed: %s" % err, |
1480 |
errors.ECODE_ENVIRON) |
1481 |
|
1482 |
self.Cleanup()
|
1483 |
|
1484 |
|
1485 |
class ConfigParserWithDefaults(ConfigParser.SafeConfigParser): |
1486 |
"""This is just a wrapper on SafeConfigParser, that uses default values
|
1487 |
|
1488 |
"""
|
1489 |
def get(self, section, options, raw=None, vars=None): # pylint: disable=W0622 |
1490 |
try:
|
1491 |
result = ConfigParser.SafeConfigParser.get(self, section, options,
|
1492 |
raw=raw, vars=vars)
|
1493 |
except ConfigParser.NoOptionError:
|
1494 |
result = None
|
1495 |
return result
|
1496 |
|
1497 |
def getint(self, section, options): |
1498 |
try:
|
1499 |
result = ConfigParser.SafeConfigParser.get(self, section, options)
|
1500 |
except ConfigParser.NoOptionError:
|
1501 |
result = 0
|
1502 |
return int(result) |
1503 |
|
1504 |
|
1505 |
class OVFExporter(Converter): |
1506 |
"""Converter from Ganeti config file to OVF
|
1507 |
|
1508 |
@type input_dir: string
|
1509 |
@ivar input_dir: directory in which the config.ini file resides
|
1510 |
@type output_dir: string
|
1511 |
@ivar output_dir: directory to which the results of conversion shall be
|
1512 |
written
|
1513 |
@type packed_dir: string
|
1514 |
@ivar packed_dir: if we want OVA package, this points to the real (i.e. not
|
1515 |
temp) output directory
|
1516 |
@type input_path: string
|
1517 |
@ivar input_path: complete path to the config.ini file
|
1518 |
@type output_path: string
|
1519 |
@ivar output_path: complete path to .ovf file
|
1520 |
@type config_parser: L{ConfigParserWithDefaults}
|
1521 |
@ivar config_parser: parser for the config.ini file
|
1522 |
@type reference_files: list
|
1523 |
@ivar reference_files: files referenced in the ovf file
|
1524 |
@type results_disk: list
|
1525 |
@ivar results_disk: list of dictionaries of disk options from config.ini
|
1526 |
@type results_network: list
|
1527 |
@ivar results_network: list of dictionaries of network options form config.ini
|
1528 |
@type results_name: string
|
1529 |
@ivar results_name: name of the instance
|
1530 |
@type results_vcpus: string
|
1531 |
@ivar results_vcpus: number of VCPUs
|
1532 |
@type results_memory: string
|
1533 |
@ivar results_memory: RAM memory in MB
|
1534 |
@type results_ganeti: dict
|
1535 |
@ivar results_ganeti: dictionary of Ganeti-specific options from config.ini
|
1536 |
|
1537 |
"""
|
1538 |
def _ReadInputData(self, input_path): |
1539 |
"""Reads the data on which the conversion will take place.
|
1540 |
|
1541 |
@type input_path: string
|
1542 |
@param input_path: absolute path to the config.ini input file
|
1543 |
|
1544 |
@raise errors.OpPrereqError: error when reading the config file
|
1545 |
|
1546 |
"""
|
1547 |
input_dir = os.path.dirname(input_path) |
1548 |
self.input_path = input_path
|
1549 |
self.input_dir = input_dir
|
1550 |
if self.options.output_dir: |
1551 |
self.output_dir = os.path.abspath(self.options.output_dir) |
1552 |
else:
|
1553 |
self.output_dir = input_dir
|
1554 |
self.config_parser = ConfigParserWithDefaults()
|
1555 |
logging.info("Reading configuration from %s file", input_path)
|
1556 |
try:
|
1557 |
self.config_parser.read(input_path)
|
1558 |
except ConfigParser.MissingSectionHeaderError, err:
|
1559 |
raise errors.OpPrereqError("Error when trying to read %s: %s" % |
1560 |
(input_path, err), errors.ECODE_ENVIRON) |
1561 |
if self.options.ova_package: |
1562 |
self.temp_dir = tempfile.mkdtemp()
|
1563 |
self.packed_dir = self.output_dir |
1564 |
self.output_dir = self.temp_dir |
1565 |
|
1566 |
self.ovf_writer = OVFWriter(not self.options.ext_usage) |
1567 |
|
1568 |
def _ParseName(self): |
1569 |
"""Parses name from command line options or config file.
|
1570 |
|
1571 |
@rtype: string
|
1572 |
@return: name of Ganeti instance
|
1573 |
|
1574 |
@raise errors.OpPrereqError: if name of the instance is not provided
|
1575 |
|
1576 |
"""
|
1577 |
if self.options.name: |
1578 |
name = self.options.name
|
1579 |
else:
|
1580 |
name = self.config_parser.get(constants.INISECT_INS, NAME)
|
1581 |
if name is None: |
1582 |
raise errors.OpPrereqError("No instance name found", |
1583 |
errors.ECODE_ENVIRON) |
1584 |
return name
|
1585 |
|
1586 |
def _ParseVCPUs(self): |
1587 |
"""Parses vcpus number from config file.
|
1588 |
|
1589 |
@rtype: int
|
1590 |
@return: number of virtual CPUs
|
1591 |
|
1592 |
@raise errors.OpPrereqError: if number of VCPUs equals 0
|
1593 |
|
1594 |
"""
|
1595 |
vcpus = self.config_parser.getint(constants.INISECT_BEP, VCPUS)
|
1596 |
if vcpus == 0: |
1597 |
raise errors.OpPrereqError("No CPU information found", |
1598 |
errors.ECODE_ENVIRON) |
1599 |
return vcpus
|
1600 |
|
1601 |
def _ParseMemory(self): |
1602 |
"""Parses vcpus number from config file.
|
1603 |
|
1604 |
@rtype: int
|
1605 |
@return: amount of memory in MB
|
1606 |
|
1607 |
@raise errors.OpPrereqError: if amount of memory equals 0
|
1608 |
|
1609 |
"""
|
1610 |
memory = self.config_parser.getint(constants.INISECT_BEP, MEMORY)
|
1611 |
if memory == 0: |
1612 |
raise errors.OpPrereqError("No memory information found", |
1613 |
errors.ECODE_ENVIRON) |
1614 |
return memory
|
1615 |
|
1616 |
def _ParseGaneti(self): |
1617 |
"""Parses Ganeti data from config file.
|
1618 |
|
1619 |
@rtype: dictionary
|
1620 |
@return: dictionary of Ganeti-specific options
|
1621 |
|
1622 |
"""
|
1623 |
results = {} |
1624 |
# hypervisor
|
1625 |
results["hypervisor"] = {}
|
1626 |
hyp_name = self.config_parser.get(constants.INISECT_INS, HYPERV)
|
1627 |
if hyp_name is None: |
1628 |
raise errors.OpPrereqError("No hypervisor information found", |
1629 |
errors.ECODE_ENVIRON) |
1630 |
results["hypervisor"]["name"] = hyp_name |
1631 |
pairs = self.config_parser.items(constants.INISECT_HYP)
|
1632 |
for (name, value) in pairs: |
1633 |
results["hypervisor"][name] = value
|
1634 |
# os
|
1635 |
results["os"] = {}
|
1636 |
os_name = self.config_parser.get(constants.INISECT_EXP, OS)
|
1637 |
if os_name is None: |
1638 |
raise errors.OpPrereqError("No operating system information found", |
1639 |
errors.ECODE_ENVIRON) |
1640 |
results["os"]["name"] = os_name |
1641 |
pairs = self.config_parser.items(constants.INISECT_OSP)
|
1642 |
for (name, value) in pairs: |
1643 |
results["os"][name] = value
|
1644 |
# other
|
1645 |
others = [ |
1646 |
(constants.INISECT_INS, DISK_TEMPLATE, "disk_template"),
|
1647 |
(constants.INISECT_BEP, AUTO_BALANCE, "auto_balance"),
|
1648 |
(constants.INISECT_INS, TAGS, "tags"),
|
1649 |
(constants.INISECT_EXP, VERSION, "version"),
|
1650 |
] |
1651 |
for (section, element, name) in others: |
1652 |
results[name] = self.config_parser.get(section, element)
|
1653 |
return results
|
1654 |
|
1655 |
def _ParseNetworks(self): |
1656 |
"""Parses network data from config file.
|
1657 |
|
1658 |
@rtype: list
|
1659 |
@return: list of dictionaries of network options
|
1660 |
|
1661 |
@raise errors.OpPrereqError: then network mode is not recognized
|
1662 |
|
1663 |
"""
|
1664 |
results = [] |
1665 |
counter = 0
|
1666 |
while True: |
1667 |
data_link = \ |
1668 |
self.config_parser.get(constants.INISECT_INS,
|
1669 |
"nic%s_link" % counter)
|
1670 |
if data_link is None: |
1671 |
break
|
1672 |
results.append({ |
1673 |
"mode": self.config_parser.get(constants.INISECT_INS, |
1674 |
"nic%s_mode" % counter),
|
1675 |
"mac": self.config_parser.get(constants.INISECT_INS, |
1676 |
"nic%s_mac" % counter),
|
1677 |
"ip": self.config_parser.get(constants.INISECT_INS, |
1678 |
"nic%s_ip" % counter),
|
1679 |
"network": self.config_parser.get(constants.INISECT_INS, |
1680 |
"nic%s_network" % counter),
|
1681 |
"link": data_link,
|
1682 |
}) |
1683 |
if results[counter]["mode"] not in constants.NIC_VALID_MODES: |
1684 |
raise errors.OpPrereqError("Network mode %s not recognized" |
1685 |
% results[counter]["mode"],
|
1686 |
errors.ECODE_INVAL) |
1687 |
counter += 1
|
1688 |
return results
|
1689 |
|
1690 |
def _GetDiskOptions(self, disk_file, compression): |
1691 |
"""Convert the disk and gather disk info for .ovf file.
|
1692 |
|
1693 |
@type disk_file: string
|
1694 |
@param disk_file: name of the disk (without the full path)
|
1695 |
@type compression: bool
|
1696 |
@param compression: whether the disk should be compressed or not
|
1697 |
|
1698 |
@raise errors.OpPrereqError: when disk image does not exist
|
1699 |
|
1700 |
"""
|
1701 |
disk_path = utils.PathJoin(self.input_dir, disk_file)
|
1702 |
results = {} |
1703 |
if not os.path.isfile(disk_path): |
1704 |
raise errors.OpPrereqError("Disk image does not exist: %s" % disk_path, |
1705 |
errors.ECODE_ENVIRON) |
1706 |
if os.path.dirname(disk_file):
|
1707 |
raise errors.OpPrereqError("Path for the disk: %s contains a directory" |
1708 |
" name" % disk_path, errors.ECODE_ENVIRON)
|
1709 |
disk_name, _ = os.path.splitext(disk_file) |
1710 |
ext, new_disk_path = self._ConvertDisk(self.options.disk_format, disk_path) |
1711 |
results["format"] = self.options.disk_format |
1712 |
results["virt-size"] = self._GetDiskQemuInfo( |
1713 |
new_disk_path, "virtual size: \S+ \((\d+) bytes\)")
|
1714 |
if compression:
|
1715 |
ext2, new_disk_path = self._CompressDisk(new_disk_path, "gzip", |
1716 |
COMPRESS) |
1717 |
disk_name, _ = os.path.splitext(disk_name) |
1718 |
results["compression"] = "gzip" |
1719 |
ext += ext2 |
1720 |
final_disk_path = LinkFile(new_disk_path, prefix=disk_name, suffix=ext, |
1721 |
directory=self.output_dir)
|
1722 |
final_disk_name = os.path.basename(final_disk_path) |
1723 |
results["real-size"] = os.path.getsize(final_disk_path)
|
1724 |
results["path"] = final_disk_name
|
1725 |
self.references_files.append(final_disk_path)
|
1726 |
return results
|
1727 |
|
1728 |
def _ParseDisks(self): |
1729 |
"""Parses disk data from config file.
|
1730 |
|
1731 |
@rtype: list
|
1732 |
@return: list of dictionaries of disk options
|
1733 |
|
1734 |
"""
|
1735 |
results = [] |
1736 |
counter = 0
|
1737 |
while True: |
1738 |
disk_file = \ |
1739 |
self.config_parser.get(constants.INISECT_INS, "disk%s_dump" % counter) |
1740 |
if disk_file is None: |
1741 |
break
|
1742 |
results.append(self._GetDiskOptions(disk_file, self.options.compression)) |
1743 |
counter += 1
|
1744 |
return results
|
1745 |
|
1746 |
def Parse(self): |
1747 |
"""Parses the data and creates a structure containing all required info.
|
1748 |
|
1749 |
"""
|
1750 |
try:
|
1751 |
utils.Makedirs(self.output_dir)
|
1752 |
except OSError, err: |
1753 |
raise errors.OpPrereqError("Failed to create directory %s: %s" % |
1754 |
(self.output_dir, err), errors.ECODE_ENVIRON)
|
1755 |
|
1756 |
self.references_files = []
|
1757 |
self.results_name = self._ParseName() |
1758 |
self.results_vcpus = self._ParseVCPUs() |
1759 |
self.results_memory = self._ParseMemory() |
1760 |
if not self.options.ext_usage: |
1761 |
self.results_ganeti = self._ParseGaneti() |
1762 |
self.results_network = self._ParseNetworks() |
1763 |
self.results_disk = self._ParseDisks() |
1764 |
|
1765 |
def _PrepareManifest(self, path): |
1766 |
"""Creates manifest for all the files in OVF package.
|
1767 |
|
1768 |
@type path: string
|
1769 |
@param path: path to manifesto file
|
1770 |
|
1771 |
@raise errors.OpPrereqError: if error occurs when writing file
|
1772 |
|
1773 |
"""
|
1774 |
logging.info("Preparing manifest for the OVF package")
|
1775 |
lines = [] |
1776 |
files_list = [self.output_path]
|
1777 |
files_list.extend(self.references_files)
|
1778 |
logging.warning("Calculating SHA1 checksums, this may take a while")
|
1779 |
sha1_sums = utils.FingerprintFiles(files_list) |
1780 |
for file_path, value in sha1_sums.iteritems(): |
1781 |
file_name = os.path.basename(file_path) |
1782 |
lines.append("SHA1(%s)= %s" % (file_name, value))
|
1783 |
lines.append("")
|
1784 |
data = "\n".join(lines)
|
1785 |
try:
|
1786 |
utils.WriteFile(path, data=data) |
1787 |
except errors.ProgrammerError, err:
|
1788 |
raise errors.OpPrereqError("Saving the manifest file failed: %s" % err, |
1789 |
errors.ECODE_ENVIRON) |
1790 |
|
1791 |
@staticmethod
|
1792 |
def _PrepareTarFile(tar_path, files_list): |
1793 |
"""Creates tarfile from the files in OVF package.
|
1794 |
|
1795 |
@type tar_path: string
|
1796 |
@param tar_path: path to the resulting file
|
1797 |
@type files_list: list
|
1798 |
@param files_list: list of files in the OVF package
|
1799 |
|
1800 |
"""
|
1801 |
logging.info("Preparing tarball for the OVF package")
|
1802 |
open(tar_path, mode="w").close() |
1803 |
ova_package = tarfile.open(name=tar_path, mode="w")
|
1804 |
for file_path in files_list: |
1805 |
file_name = os.path.basename(file_path) |
1806 |
ova_package.add(file_path, arcname=file_name) |
1807 |
ova_package.close() |
1808 |
|
1809 |
def Save(self): |
1810 |
"""Saves the gathered configuration in an apropriate format.
|
1811 |
|
1812 |
@raise errors.OpPrereqError: if unable to create output directory
|
1813 |
|
1814 |
"""
|
1815 |
output_file = "%s%s" % (self.results_name, OVF_EXT) |
1816 |
output_path = utils.PathJoin(self.output_dir, output_file)
|
1817 |
self.ovf_writer = OVFWriter(not self.options.ext_usage) |
1818 |
logging.info("Saving read data to %s", output_path)
|
1819 |
|
1820 |
self.output_path = utils.PathJoin(self.output_dir, output_file) |
1821 |
files_list = [self.output_path]
|
1822 |
|
1823 |
self.ovf_writer.SaveDisksData(self.results_disk) |
1824 |
self.ovf_writer.SaveNetworksData(self.results_network) |
1825 |
if not self.options.ext_usage: |
1826 |
self.ovf_writer.SaveGanetiData(self.results_ganeti, self.results_network) |
1827 |
|
1828 |
self.ovf_writer.SaveVirtualSystemData(self.results_name, self.results_vcpus, |
1829 |
self.results_memory)
|
1830 |
|
1831 |
data = self.ovf_writer.PrettyXmlDump()
|
1832 |
utils.WriteFile(self.output_path, data=data)
|
1833 |
|
1834 |
manifest_file = "%s%s" % (self.results_name, MF_EXT) |
1835 |
manifest_path = utils.PathJoin(self.output_dir, manifest_file)
|
1836 |
self._PrepareManifest(manifest_path)
|
1837 |
files_list.append(manifest_path) |
1838 |
|
1839 |
files_list.extend(self.references_files)
|
1840 |
|
1841 |
if self.options.ova_package: |
1842 |
ova_file = "%s%s" % (self.results_name, OVA_EXT) |
1843 |
packed_path = utils.PathJoin(self.packed_dir, ova_file)
|
1844 |
try:
|
1845 |
utils.Makedirs(self.packed_dir)
|
1846 |
except OSError, err: |
1847 |
raise errors.OpPrereqError("Failed to create directory %s: %s" % |
1848 |
(self.packed_dir, err),
|
1849 |
errors.ECODE_ENVIRON) |
1850 |
self._PrepareTarFile(packed_path, files_list)
|
1851 |
logging.info("Creation of the OVF package was successfull")
|
1852 |
self.Cleanup()
|