+#!/usr/bin/python
+#
# Copyright (c) 2003 Intel Corporation
# All rights reserved.
-
-# Redistribution and use in source and binary forms, with or without
-# modification, are permitted provided that the following conditions are
-# met:
-
-# * Redistributions of source code must retain the above copyright
-# notice, this list of conditions and the following disclaimer.
-
-# * Redistributions in binary form must reproduce the above
-# copyright notice, this list of conditions and the following
-# disclaimer in the documentation and/or other materials provided
-# with the distribution.
-
-# * Neither the name of the Intel Corporation nor the names of its
-# contributors may be used to endorse or promote products derived
-# from this software without specific prior written permission.
-
-# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
-# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
-# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
-# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE INTEL OR
-# CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
-# EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
-# PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
-# PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
-# LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
-# NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
-# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-
-# EXPORT LAWS: THIS LICENSE ADDS NO RESTRICTIONS TO THE EXPORT LAWS OF
-# YOUR JURISDICTION. It is licensee's responsibility to comply with any
-# export regulations applicable in licensee's jurisdiction. Under
-# CURRENT (May 2000) U.S. export regulations this software is eligible
-# for export from the U.S. and can be downloaded by or otherwise
-# exported or reexported worldwide EXCEPT to U.S. embargoed destinations
-# which include Cuba, Iraq, Libya, North Korea, Iran, Syria, Sudan,
-# Afghanistan and any other country to which the U.S. has embargoed
-# goods and services.
-
+#
+# Copyright (c) 2004-2006 The Trustees of Princeton University
+# All rights reserved.
+# expected /proc/partitions format
import os, sys
import string
import popen2
-
+import time
from Exceptions import *
import utils
import BootServerRequest
-import compatibility
-
-
+import BootAPI
+import ModelOptions
def Run( vars, log ):
"""
TEMP_PATH somewhere to store what we need to run
ROOT_SIZE the size of the root logical volume
SWAP_SIZE the size of the swap partition
- BOOT_CD_VERSION A tuple of the current bootcd version
-
- Sets the following variables:
- PARTITIONS diction of generic part. types (root/swap)
- and their associated devices.
- Current keys/values:
- root /dev/planetlab/root
- swap /dev/planetlab/swap
-
"""
log.write( "\n\nStep: Install: partitioning disks.\n" )
if( len(INSTALL_BLOCK_DEVICES) == 0 ):
raise ValueError, "INSTALL_BLOCK_DEVICES is empty"
- ROOT_SIZE= vars["ROOT_SIZE"]
+ # use vs_ROOT_SIZE or lxc_ROOT_SIZE as appropriate
+ varname=vars['virt']+"_ROOT_SIZE"
+ ROOT_SIZE= vars[varname]
if ROOT_SIZE == "" or ROOT_SIZE == 0:
raise ValueError, "ROOT_SIZE invalid"
if SWAP_SIZE == "" or SWAP_SIZE == 0:
raise ValueError, "SWAP_SIZE invalid"
- BOOT_CD_VERSION= vars["BOOT_CD_VERSION"]
- if BOOT_CD_VERSION == "":
- raise ValueError, "BOOT_CD_VERSION"
+ NODE_MODEL_OPTIONS= vars["NODE_MODEL_OPTIONS"]
+
+ PARTITIONS= vars["PARTITIONS"]
+ if PARTITIONS == None:
+ raise ValueError, "PARTITIONS"
+
+ if NODE_MODEL_OPTIONS & ModelOptions.RAWDISK:
+ VSERVERS_SIZE= "-1"
+ if "VSERVERS_SIZE" in vars:
+ VSERVERS_SIZE= vars["VSERVERS_SIZE"]
+ if VSERVERS_SIZE == "" or VSERVERS_SIZE == 0:
+ raise ValueError, "VSERVERS_SIZE"
except KeyError, var:
raise BootManagerException, "Missing variable in vars: %s\n" % var
except ValueError, var:
raise BootManagerException, "Variable in vars, shouldn't be: %s\n" % var
- bs_request= BootServerRequest.BootServerRequest()
-
-
- # old cds need extra utilities to partition disks and setup lvm
- if BOOT_CD_VERSION[0] == 2:
- compatibility.setup_partdisks_2x_cd( vars, log )
-
- import parted
-
- # define the basic partition paths
- PARTITIONS= {}
- PARTITIONS["root"]= "/dev/planetlab/root"
- PARTITIONS["swap"]= "/dev/planetlab/swap"
- PARTITIONS["vservers"]= "/dev/planetlab/vservers"
- # Linux 2.6 mounts LVM with device mapper
- PARTITIONS["mapper-root"]= "/dev/mapper/planetlab-root"
- PARTITIONS["mapper-swap"]= "/dev/mapper/planetlab-swap"
- PARTITIONS["mapper-vservers"]= "/dev/mapper/planetlab-vservers"
- vars["PARTITIONS"]= PARTITIONS
+ bs_request= BootServerRequest.BootServerRequest(vars)
# disable swap if its on
# shutdown and remove any lvm groups/volumes
utils.sysexec_noerr( "vgscan", log )
utils.sysexec_noerr( "vgchange -ay", log )
- utils.sysexec_noerr( "lvremove -f /dev/planetlab/root", log )
- utils.sysexec_noerr( "lvremove -f /dev/planetlab/swap", log )
- utils.sysexec_noerr( "lvremove -f /dev/planetlab/vservers", log )
+ utils.sysexec_noerr( "lvremove -f %s" % PARTITIONS["root"], log )
+ utils.sysexec_noerr( "lvremove -f %s" % PARTITIONS["swap"], log )
+ utils.sysexec_noerr( "lvremove -f %s" % PARTITIONS["vservers"], log )
utils.sysexec_noerr( "vgchange -an", log )
- utils.sysexec_noerr( "vgremove planetlab", log )
+ utils.sysexec_noerr( "vgremove -f planetlab", log )
log.write( "Running vgscan for devices\n" )
utils.sysexec_noerr( "vgscan", log )
used_devices= []
+ INSTALL_BLOCK_DEVICES.sort()
for device in INSTALL_BLOCK_DEVICES:
if single_partition_device( device, vars, log ):
- used_devices.append( device )
- log.write( "Successfully initialized %s\n" % device )
+ if (len(used_devices) > 0 and
+ (vars['NODE_MODEL_OPTIONS'] & ModelOptions.RAWDISK)):
+ log.write( "Running in raw disk mode, not using %s.\n" % device )
+ else:
+ used_devices.append( device )
+ log.write( "Successfully initialized %s\n" % device )
else:
log.write( "Unable to partition %s, not using it.\n" % device )
continue
# list of devices to be used with vgcreate
vg_device_list= ""
- # initialize the physical volumes
+ # get partitions
+ partitions = []
for device in used_devices:
-
part_path= get_partition_path_from_device( device, vars, log )
-
+ partitions.append(part_path)
+
+ # create raid partition
+ raid_partition = create_raid_partition(partitions, vars, log)
+ if raid_partition != None:
+ partitions = [raid_partition]
+ log.write("PARTITIONS %s\n" % str(partitions))
+ # initialize the physical volumes
+ for part_path in partitions:
if not create_lvm_physical_volume( part_path, vars, log ):
raise BootManagerException, "Could not create lvm physical volume " \
"on partition %s" % part_path
-
vg_device_list = vg_device_list + " " + part_path
# create an lvm volume group
# create root logical volume
utils.sysexec( "lvcreate -L%s -nroot planetlab" % ROOT_SIZE, log )
- # create vservers logical volume with all remaining space
- # first, we need to get the number of remaining extents we can use
- remaining_extents= get_remaining_extents_on_vg( vars, log )
-
- utils.sysexec( "lvcreate -l%s -nvservers planetlab" % remaining_extents, log )
+ if vars['NODE_MODEL_OPTIONS'] & ModelOptions.RAWDISK and VSERVERS_SIZE != "-1":
+ utils.sysexec( "lvcreate -L%s -nvservers planetlab" % VSERVERS_SIZE, log )
+ remaining_extents= get_remaining_extents_on_vg( vars, log )
+ utils.sysexec( "lvcreate -l%s -nrawdisk planetlab" % remaining_extents, log )
+ else:
+ # create vservers logical volume with all remaining space
+ # first, we need to get the number of remaining extents we can use
+ remaining_extents= get_remaining_extents_on_vg( vars, log )
+
+ utils.sysexec( "lvcreate -l%s -nvservers planetlab" % remaining_extents, log )
# activate volume group (should already be active)
#utils.sysexec( TEMP_PATH + "vgchange -ay planetlab", log )
# make swap
- utils.sysexec( "mkswap %s" % PARTITIONS["swap"], log )
-
- # make root file system
- utils.sysexec( "mkfs.ext2 -j %s" % PARTITIONS["root"], log )
-
- # make vservers file system
- utils.sysexec( "mkfs.ext2 -m 0 -j %s" % PARTITIONS["vservers"], log )
+ utils.sysexec( "mkswap -f %s" % PARTITIONS["swap"], log )
+
+ # check if badhd option has been set
+ option = ''
+ txt = ''
+ if NODE_MODEL_OPTIONS & ModelOptions.BADHD:
+ option = '-c'
+ txt = " with bad block search enabled, which may take a while"
+
+ # filesystems partitions names and their corresponding
+ # reserved-blocks-percentages
+ filesystems = {"root":5,"vservers":0}
+
+ # ROOT filesystem is always with ext2
+ fs = 'root'
+ rbp = filesystems[fs]
+ devname = PARTITIONS[fs]
+ log.write("formatting %s partition (%s)%s.\n" % (fs,devname,txt))
+ utils.sysexec( "mkfs.ext2 -q %s -m %d -j %s" % (option,rbp,devname), log )
+ # disable time/count based filesystems checks
+ utils.sysexec_noerr( "tune2fs -c -1 -i 0 %s" % devname, log)
+
+ # VSERVER filesystem with btrfs to support snapshoting and stuff
+ fs = 'vservers'
+ rbp = filesystems[fs]
+ devname = PARTITIONS[fs]
+ if vars['virt']=='vs':
+ log.write("formatting %s partition (%s)%s.\n" % (fs,devname,txt))
+ utils.sysexec( "mkfs.ext2 -q %s -m %d -j %s" % (option,rbp,devname), log )
+ # disable time/count based filesystems checks
+ utils.sysexec_noerr( "tune2fs -c -1 -i 0 %s" % devname, log)
+ else:
+ log.write("formatting %s btrfs partition (%s).\n" % (fs,devname))
+ # early BootCD's seem to come with a version of mkfs.btrfs that does not support -f
+ # let's check for that before invoking it
+ mkfs="mkfs.btrfs"
+ if os.system("mkfs.btrfs --help 2>&1 | grep force")==0:
+ mkfs+=" -f"
+ mkfs+=" %s"%devname
+ utils.sysexec( mkfs, log )
+ # as of 2013/02 it looks like there's not yet an option to set fsck frequency with btrfs
# save the list of block devices in the log
- log.write( "Block devices used (in lvm):\n" )
- log.write( repr(used_devices) + "\n" )
- log.write( "End of block devices used (in lvm).\n" )
+ log.write( "Block devices used (in lvm): %s\n" % repr(used_devices))
# list of block devices used may be updated
vars["INSTALL_BLOCK_DEVICES"]= used_devices
return 1
-
+import parted
def single_partition_device( device, vars, log ):
"""
initialize a disk by removing the old partition tables,
return 1 if sucessful, 0 otherwise
"""
- BOOT_CD_VERSION= vars["BOOT_CD_VERSION"]
- if BOOT_CD_VERSION[0] == 2:
- compatibility.setup_partdisks_2x_cd( vars, log )
-
- import parted
+ # two forms, depending on which version of pyparted we have
+ # v1 does not have a 'version' method
+ # v2 and above does, but to make it worse,
+ # parted-3.4 on f14 has parted.version broken and raises SystemError
+ try:
+ parted.version()
+ return single_partition_device_2_x (device, vars, log)
+ except AttributeError:
+ # old parted does not have version at all
+ return single_partition_device_1_x (device, vars, log)
+ except SystemError:
+ # let's assume this is >=2
+ return single_partition_device_2_x (device, vars, log)
+ except:
+ raise
+
+def single_partition_device_1_x ( device, vars, log):
lvm_flag= parted.partition_flag_get_by_name('lvm')
try:
+ log.write("Using pyparted 1.x\n")
# wipe the old partition table
utils.sysexec( "dd if=/dev/zero of=%s bs=512 count=1" % device, log )
# get the device
dev= parted.PedDevice.get(device)
- # 2.x cds have different libparted that 3.x cds, and they have
- # different interfaces
- if BOOT_CD_VERSION[0] == 3:
+ # create a new partition table
+ disk= dev.disk_new_fresh(parted.disk_type_get("msdos"))
- # create a new partition table
- disk= dev.disk_new_fresh(parted.disk_type_get("msdos"))
+ # create one big partition on each block device
+ constraint= dev.constraint_any()
- # create one big partition on each block device
- constraint= dev.constraint_any()
+ new_part= disk.partition_new(
+ parted.PARTITION_PRIMARY,
+ parted.file_system_type_get("ext2"),
+ 0, 1 )
- new_part= disk.partition_new(
- parted.PARTITION_PRIMARY,
- parted.file_system_type_get("ext2"),
- 0, 1 )
+ # make it an lvm partition
+ new_part.set_flag(lvm_flag,1)
- # make it an lvm partition
- new_part.set_flag(lvm_flag,1)
+ # actually add the partition to the disk
+ disk.add_partition(new_part, constraint)
- # actually add the partition to the disk
- disk.add_partition(new_part, constraint)
+ disk.maximize_partition(new_part,constraint)
- disk.maximize_partition(new_part,constraint)
-
- disk.commit()
- del disk
- else:
- # create a new partition table
- dev.disk_create(parted.disk_type_get("msdos"))
-
- # get the disk
- disk= parted.PedDisk.open(dev)
-
- # create one big partition on each block device
- part= disk.next_partition()
- while part:
- if part.type == parted.PARTITION_FREESPACE:
- new_part= disk.partition_new(
- parted.PARTITION_PRIMARY,
- parted.file_system_type_get("ext2"),
- part.geom.start,
- part.geom.end )
-
- constraint = disk.constraint_any()
-
- # make it an lvm partition
- new_part.set_flag(lvm_flag,1)
-
- # actually add the partition to the disk
- disk.add_partition(new_part, constraint)
-
- break
-
- part= disk.next_partition(part)
-
- disk.write()
- disk.close()
- del disk
+ disk.commit()
+ del disk
except BootManagerException, e:
log.write( "BootManagerException while running: %s\n" % str(e) )
+def single_partition_device_2_x ( device, vars, log):
+ try:
+ log.write("Using pyparted 2.x\n")
+
+ # Thierry june 2012 -- for disks larger than 2TB
+ # calling this with part_type='msdos' would fail at the maximizePartition stage
+ # create a new partition table
+ def partition_table (device, part_type, fs_type):
+ # wipe the old partition table
+ utils.sysexec( "dd if=/dev/zero of=%s bs=512 count=1" % device, log )
+ # get the device
+ dev= parted.Device(device)
+ disk = parted.freshDisk(dev,part_type)
+ # create one big partition on each block device
+ constraint= parted.constraint.Constraint (device=dev)
+ geometry = parted.geometry.Geometry (device=dev, start=0, end=1)
+ fs = parted.filesystem.FileSystem (type=fs_type,geometry=geometry)
+ new_part= parted.partition.Partition (disk, type=parted.PARTITION_NORMAL,
+ fs=fs, geometry=geometry)
+ # make it an lvm partition
+ new_part.setFlag(parted.PARTITION_LVM)
+ # actually add the partition to the disk
+ disk.addPartition(new_part, constraint)
+ disk.maximizePartition(new_part,constraint)
+ disk.commit()
+ log.write ("Current disk for %s - partition type %s\n%s\n"%(device,part_type,disk))
+ log.write ("Current dev for %s\n%s\n"%(device,dev))
+ del disk
+
+ try:
+ partition_table (device, 'msdos', 'ext2')
+ except:
+ partition_table (device, 'gpt', 'ext2')
+
+ except Exception, e:
+ log.write( "Exception inside single_partition_device_2_x : %s\n" % str(e) )
+ import traceback
+ traceback.print_exc(file=log)
+ return 0
+
+ return 1
+
+
+
def create_lvm_physical_volume( part_path, vars, log ):
"""
make the specificed partition a lvm physical volume.
return 1
+def create_raid_partition(partitions, vars, log):
+ """
+ create raid array using specified partitions.
+ """
+ raid_part = None
+ raid_enabled = False
+ node_tags = BootAPI.call_api_function( vars, "GetNodeTags",
+ ({'node_id': vars['NODE_ID']},))
+ for node_tag in node_tags:
+ if node_tag['tagname'] == 'raid_enabled' and \
+ node_tag['value'] == '1':
+ raid_enabled = True
+ break
+ if not raid_enabled:
+ return raid_part
+
+ try:
+ log.write( "Software raid enabled.\n" )
+ # wipe everything
+ utils.sysexec_noerr("mdadm --stop /dev/md0", log)
+ time.sleep(1)
+ for part_path in partitions:
+ utils.sysexec_noerr("mdadm --zero-superblock %s " % part_path, log)
+
+ # assume each partiton is on a separate disk
+ num_parts = len(partitions)
+ if num_parts < 2:
+ log.write( "Not enough disks for raid. Found: %s\n" % partitions )
+ raise BootManagerException("Not enough disks for raid. Found: %s\n" % partitions)
+ if num_parts == 2:
+ lvl = 1
+ else:
+ lvl = 5
+
+ # make the array
+ part_list = " ".join(partitions)
+ raid_part = "/dev/md0"
+ cmd = "mdadm --create %(raid_part)s --chunk=128 --level=raid%(lvl)s " % locals() + \
+ "--raid-devices=%(num_parts)s %(part_list)s" % locals()
+ utils.sysexec(cmd, log)
+
+ except BootManagerException, e:
+ log.write("create_raid_partition failed.\n")
+ raid_part = None
+
+ return raid_part
+
def get_partition_path_from_device( device, vars, log ):
"""
given a device, return the path of the first partition on the device
"""
- BOOT_CD_VERSION= vars["BOOT_CD_VERSION"]
-
# those who wrote the cciss driver just had to make it difficult
- if BOOT_CD_VERSION[0] == 3:
- cciss_test= "/dev/cciss"
- if device[:len(cciss_test)] == cciss_test:
- part_path= device + "p1"
- else:
- part_path= device + "1"
+ cciss_test= "/dev/cciss"
+ if device[:len(cciss_test)] == cciss_test:
+ part_path= device + "p1"
else:
- # since device ends in /disc, we need to make it end in
- # /part1 to indicate the first partition (for devfs based 2.x cds)
- dev_parts= string.split(device,"/")
- dev_parts[len(dev_parts)-1]= "part1"
- part_path= string.join(dev_parts,"/")
+ part_path= device + "1"
return part_path