# lvm.py - lvm probing control # # Jeremy Katz # # Copyright 2002 Red Hat, Inc. # # This software may be freely redistributed under the terms of the GNU # general public license. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. import iutil import os,sys import string import math from flags import flags from rhpl.log import log from constants import * MAX_LV_SLOTS=256 output = "/tmp/lvmout" lvmDevicePresent = 0 def has_lvm(): global lvmDevicePresent f = open("/proc/devices", "r") lines = f.readlines() f.close() for line in lines: try: (dev, name) = line[:-1].split(' ', 2) except: continue if name == "lvm": lvmDevicePresent = 1 break return lvmDevicePresent # now check to see if lvm is available has_lvm() def vgscan(): """Runs vgscan.""" global lvmDevicePresent if flags.test or lvmDevicePresent == 0: return rc = iutil.execWithRedirect("vgscan", ["vgscan", "-v"], stdout = output, stderr = output, searchPath = 1) if rc: log("running vgscan failed. disabling lvm") lvmDevicePresent = 0 def vgactivate(volgroup = None): """Activate volume groups by running vgchange -ay. volgroup - optional single volume group to activate """ if flags.test or lvmDevicePresent == 0: return args = ["vgchange", "-ay", "-An"] if volgroup: args.append(volgroup) rc = iutil.execWithRedirect(args[0], args, stdout = output, stderr = output, searchPath = 1) if rc: raise SystemError, "vgchange failed" def vgdeactivate(volgroup = None): """Deactivate volume groups by running vgchange -an. volgroup - optional single volume group to deactivate """ if flags.test or lvmDevicePresent == 0: return args = ["vgchange", "-an", "-An"] if volgroup: args.append(volgroup) rc = iutil.execWithRedirect(args[0], args, stdout = output, stderr = output, searchPath = 1) if rc: raise SystemError, "vgchange failed" def lvremove(lvname, vgname): """Removes a logical volume. lvname - name of logical volume to remove. vgname - name of volume group lv is in. """ if flags.test or lvmDevicePresent == 0: return args = ["lvremove", "-f", "-An"] dev = "/dev/%s/%s" %(vgname, lvname) args.append(dev) rc = iutil.execWithRedirect(args[0], args, stdout = output, stderr = output, searchPath = 1) if rc: raise SystemError, "lvremove failed" def vgremove(vgname): """Removes a volume group. Deactivates the volume group first vgname - name of volume group. """ if flags.test or lvmDevicePresent == 0: return # we'll try to deactivate... if it fails, we'll probably fail on # the removal too... but it's worth a shot try: vgdeactivate(vgname) except: pass args = ["vgremove", vgname] rc = iutil.execWithRedirect(args[0], args, stdout = output, stderr = output, searchPath = 1) if rc: raise SystemError, "vgremove failed" def getPossiblePhysicalExtents(floor=0): """Returns a list of integers representing the possible values for the physical extent of a volume group. Value is in KB. floor - size (in KB) of smallest PE we care about. """ possiblePE = [] curpe = 8 while curpe <= 16384*1024: if curpe >= floor: possiblePE.append(curpe) curpe = curpe * 2 return possiblePE def clampLVSizeRequest(size, pe, roundup=0): """Given a size and a PE, returns the actual size of logical volumne. size - size (in MB) of logical volume request pe - PE size (in KB) roundup - round sizes up or not """ if roundup: factor = 1 else: factor = 0 if ((size*1024L) % pe) == 0: return size else: return ((long((size*1024L)/pe)+factor)*pe)/1024 def clampPVSize(pvsize, pesize): """Given a PV size and a PE, returns the usable space of the PV. Takes into account both overhead of the physical volume and 'clamping' to the PE size. pvsize - size (in MB) of PV request pesize - PE size (in KB) """ # calculate the number of physical extents. this is size / pesize # with an appropriate factor for kb/mb matchup numpes = math.floor(pvsize * 1024 / pesize) # now, calculate our "real" overhead. 4 bytes for each PE + 128K overhead = (4 * numpes / 1024) + 128 # now, heuristically, the max of ceil(pesize + 2*overhead) and # ceil(2*overhead) is greater than the real overhead, so we won't # get people in a situation where they overcommit the vg one = math.ceil(pesize + 2 * overhead) two = math.ceil(2 * overhead) # now we have to do more unit conversion since our overhead in in KB if one > two: usable = pvsize - math.ceil(one / 1024.0) else: usable = pvsize - math.ceil(two / 1024.0) # finally, clamp to being at a pesize boundary return (long(usable*1024/pesize)*pesize)/1024 def getMaxLVSize(pe): """Given a PE size in KB, returns maximum size (in MB) of a logical volume. pe - PE size in KB """ return pe*64 def createSuggestedVGName(partitions): """Given list of partition requests, come up with a reasonable VG name partitions - list of requests """ i = 0 while 1: tmpname = "Volume%02d" % (i,) if not partitions.isVolumeGroupNameInUse(tmpname): break i = i + 1 if i>99: tmpname = "" return tmpname def createSuggestedLVName(logreqs): """Given list of LV requests, come up with a reasonable LV name partitions - list of LV requests for this VG """ i = 0 lnames = [] for lv in logreqs: lnames.append(lv.logicalVolumeName) while 1: tmpname = "LogVol%02d" % (i,) if (logreqs is None) or (tmpname not in lnames): break i = i + 1 if i>99: tmpname = "" return tmpname def getVGUsedSpace(vgreq, requests, diskset): vgused = 0 for request in requests.requests: if request.type == REQUEST_LV and request.volumeGroup == vgreq.uniqueID: size = int(request.getActualSize(requests, diskset)) vgused = vgused + size return vgused def getVGFreeSpace(vgreq, requests, diskset): used = getVGUsedSpace(vgreq, requests, diskset) return vgreq.getActualSize(requests, diskset) - used