#!@PYTHON3@
# Copyright (C) 2015-2016 Red Hat, Inc. All rights reserved.
#
# This copyrighted material is made available to anyone wishing to use,
# modify, copy, or redistribute it subject to the terms and conditions
# of the GNU General Public License v.2.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
from collections import OrderedDict
import pprint as prettyprint
import os
from lvmdbusd import cmdhandler
from lvmdbusd.utils import log_debug, log_error, lvm_column_key, LvmBug
class DataStore(object):
def __init__(self, vdo_support=False):
self.pvs = {}
self.vgs = {}
self.lvs = {}
self.pv_lvs = {}
self.lv_pvs = {}
self.lvs_hidden = {}
self.pv_path_to_uuid = {}
self.vg_name_to_uuid = {}
self.lv_full_name_to_uuid = {}
self.lvs_in_vgs = {}
self.pvs_in_vgs = {}
self.num_refreshes = 0
self.vdo_support = vdo_support
@staticmethod
def _pvs_parse_common(c_pvs, c_pvs_in_vgs, c_lookup):
for p in c_pvs.values():
# Capture which PVs are associated with which VG
if p['vg_uuid'] not in c_pvs_in_vgs:
c_pvs_in_vgs[p['vg_uuid']] = []
if p['vg_name']:
c_pvs_in_vgs[p['vg_uuid']].append(
(p['pv_name'], p['pv_uuid']))
# Lookup for translating between /dev/ and pv uuid
c_lookup[p['pv_name']] = p['pv_uuid']
@staticmethod
def _parse_pvs_json(_all):
c_pvs = OrderedDict()
c_lookup = {}
c_pvs_in_vgs = {}
# Each item in the report is a collection of information pertaining
# to the vg
for r in _all['report']:
tmp_pv = []
# Get the pv data for this VG.
if 'pv' in r:
tmp_pv.extend(r['pv'])
# Sort them
sorted_tmp_pv = sorted(tmp_pv, key=lambda pk: pk['pv_name'])
# Add them to result set
for p in sorted_tmp_pv:
c_pvs[p['pv_uuid']] = p
if 'pvseg' in r:
for s in r['pvseg']:
r = c_pvs[s['pv_uuid']]
r.setdefault('pvseg_start', []).append(s['pvseg_start'])
r.setdefault('pvseg_size', []).append(s['pvseg_size'])
r.setdefault('segtype', []).append(s['segtype'])
# TODO: Remove this bug work around when we have orphan segs.
for i in c_pvs.values():
if 'pvseg_start' not in i:
i['pvseg_start'] = '0'
i['pvseg_size'] = i['pv_pe_count']
i['segtype'] = 'free'
DataStore._pvs_parse_common(c_pvs, c_pvs_in_vgs, c_lookup)
return c_pvs, c_lookup, c_pvs_in_vgs
@staticmethod
def _parse_vgs_json(_all):
tmp_vg = []
for r in _all['report']:
# Get the pv data for this VG.
if 'vg' in r:
tmp_vg.extend(r['vg'])
# Sort for consistent output, however this is optional
vgs = sorted(tmp_vg, key=lambda vk: vk['vg_uuid'])
c_vgs = OrderedDict()
c_lookup = {}
for i in vgs:
vg_name = i['vg_name']
# Lvm allows duplicate vg names. When this occurs, each subsequent
# matching VG name will be called vg_name:vg_uuid. Note: ':' is an
# invalid character for lvm VG names
if vg_name in c_lookup:
vg_name = "%s:%s" % (vg_name, i['vg_uuid'])
i['vg_name'] = vg_name
c_lookup[vg_name] = i['vg_uuid']
c_vgs[i['vg_uuid']] = i
return c_vgs, c_lookup
@staticmethod
def _parse_lvs_common(c_lvs, c_lv_full_lookup):
c_lvs_in_vgs = OrderedDict()
c_lvs_hidden = OrderedDict()
for i in c_lvs.values():
if i['vg_uuid'] not in c_lvs_in_vgs:
c_lvs_in_vgs[i['vg_uuid']] = []
c_lvs_in_vgs[
i['vg_uuid']].append(
(i['lv_name'],
(i['lv_attr'], i['lv_layout'], i['lv_role']),
i['lv_uuid']))
if i['lv_parent']:
# Lookup what the parent refers too
parent_name = i['lv_parent']
full_parent_name = "%s/%s" % (i['vg_name'], parent_name)
if full_parent_name not in c_lv_full_lookup:
parent_name = '[%s]' % (parent_name)
full_parent_name = "%s/%s" % (i['vg_name'], parent_name)
parent_uuid = c_lv_full_lookup[full_parent_name]
if parent_uuid not in c_lvs_hidden:
c_lvs_hidden[parent_uuid] = []
c_lvs_hidden[parent_uuid].append(
(i['lv_uuid'], i['lv_name']))
return c_lvs, c_lvs_in_vgs, c_lvs_hidden, c_lv_full_lookup
def _parse_lvs_json(self, _all):
c_lvs = OrderedDict()
c_lv_full_lookup = {}
# Each item in the report is a collection of information pertaining
# to the vg
for r in _all['report']:
# Get the lv data for this VG.
if 'lv' in r:
# Add them to result set
for i in r['lv']:
full_name = "%s/%s" % (i['vg_name'], i['lv_name'])
c_lv_full_lookup[full_name] = i['lv_uuid']
c_lvs[i['lv_uuid']] = i
# Add in the segment data
if 'seg' in r:
for s in r['seg']:
r = c_lvs[s['lv_uuid']]
r.setdefault('seg_pe_ranges', []).\
append(s['seg_pe_ranges'])
r.setdefault('segtype', []).append(s['segtype'])
if self.vdo_support:
for seg_key, seg_val in s.items():
if seg_key.startswith("vdo_"):
r[seg_key] = seg_val
return DataStore._parse_lvs_common(c_lvs, c_lv_full_lookup)
@staticmethod
def _make_list(l):
if not isinstance(l, list):
l = [l]
return l
@staticmethod
def _parse_seg_entry(se, segtype):
if se:
# print("_parse_seg_entry %s %s" % (str(se), str(segtype)))
device, segs = se.split(":")
start, end = segs.split('-')
return (device, (start, end), segtype)
else:
return ("", (), segtype)
@staticmethod
def _build_segments(l, seg_types):
rc = []
l = DataStore._make_list(l)
s = DataStore._make_list(seg_types)
assert len(l) == len(s)
ls = list(zip(l, s))
for i in ls:
if ' ' in i[0]:
tmp = i[0].split(' ')
for t in tmp:
rc.append(DataStore._parse_seg_entry(t, i[1]))
else:
rc.append(DataStore._parse_seg_entry(*i))
return rc
@staticmethod
def _pv_device_lv_entry(table, pv_device, lv_uuid, meta, lv_attr,
segment_info):
if pv_device not in table:
table[pv_device] = {}
if lv_uuid not in table[pv_device]:
table[pv_device][lv_uuid] = {}
table[pv_device][lv_uuid]['segs'] = [segment_info]
table[pv_device][lv_uuid]['name'] = meta
table[pv_device][lv_uuid]['meta'] = lv_attr
else:
table[pv_device][lv_uuid]['segs'].append(segment_info)
@staticmethod
def _pv_device_lv_format(pv_device_lvs):
rc = {}
for pv_device, pd in pv_device_lvs.items():
lvs = []
for lv_uuid, ld in sorted(pd.items()):
lvs.append((lv_uuid, ld['name'], ld['meta'], ld['segs']))
rc[pv_device] = lvs
return rc
@staticmethod
def _lvs_device_pv_entry(table, lv_uuid, pv_device, pv_uuid, segment_info):
if lv_uuid not in table:
table[lv_uuid] = {}
if pv_device not in table[lv_uuid]:
table[lv_uuid][pv_device] = {}
table[lv_uuid][pv_device]['segs'] = [segment_info]
table[lv_uuid][pv_device]['pv_uuid'] = pv_uuid
else:
table[lv_uuid][pv_device]['segs'].append(segment_info)
@staticmethod
def _lvs_device_pv_format(lvs_device_pvs):
rc = {}
for lv_uuid, ld in lvs_device_pvs.items():
pvs = []
for pv_device, pd in sorted(ld.items()):
pvs.append((pd['pv_uuid'], pv_device, pd['segs']))
rc[lv_uuid] = pvs
return rc
def _parse_pv_in_lvs(self):
pv_device_lvs = {} # What LVs are stored on a PV
lvs_device_pv = {} # Where LV data is stored
for i in self.lvs.values():
segs = self._build_segments(i['seg_pe_ranges'], i['segtype'])
for s in segs:
# We are referring to physical device
if '/dev/' in s[0]:
device, r, seg_type = s
DataStore._pv_device_lv_entry(
pv_device_lvs, device, i['lv_uuid'], i['lv_name'],
(i['lv_attr'], i['lv_layout'], i['lv_role']),
(r[0], r[1], seg_type))
# (pv_name, pv_segs, pv_uuid)
DataStore._lvs_device_pv_entry(
lvs_device_pv, i['lv_uuid'], device,
self.pv_path_to_uuid[device], (r[0], r[1], seg_type))
else:
# TODO Handle the case where the segments refer to a LV
# and not a PV
pass
# print("Handle this %s %s %s" % (s[0], s[1], s[2]))
# Convert form to needed result for consumption
pv_device_lvs_result = DataStore._pv_device_lv_format(pv_device_lvs)
lvs_device_pv_result = DataStore._lvs_device_pv_format(lvs_device_pv)
return pv_device_lvs_result, lvs_device_pv_result
def refresh(self, log=True):
"""
Go out and query lvm for the latest data in as few trips as possible
:param log Add debug log entry/exit messages
:return: None
"""
try:
self.num_refreshes += 1
if log:
log_debug("lvmdb - refresh entry")
# Grab everything first then parse it
# Do a single lvm retrieve for everything in json
a = cmdhandler.lvm_full_report_json()
_pvs, _pvs_lookup, _pvs_in_vgs = self._parse_pvs_json(a)
_vgs, _vgs_lookup = self._parse_vgs_json(a)
_lvs, _lvs_in_vgs, _lvs_hidden, _lvs_lookup = self._parse_lvs_json(a)
# Set all
self.pvs = _pvs
self.pv_path_to_uuid = _pvs_lookup
self.vg_name_to_uuid = _vgs_lookup
self.lv_full_name_to_uuid = _lvs_lookup
self.vgs = _vgs
self.lvs = _lvs
self.lvs_in_vgs = _lvs_in_vgs
self.pvs_in_vgs = _pvs_in_vgs
self.lvs_hidden = _lvs_hidden
# Create lookup table for which LV and segments are on each PV
self.pv_lvs, self.lv_pvs = self._parse_pv_in_lvs()
except KeyError as ke:
key = ke.args[0]
if lvm_column_key(key):
raise LvmBug("missing JSON key: '%s'" % key)
raise ke
if log:
log_debug("lvmdb - refresh exit")
def fetch_pvs(self, pv_name):
if not pv_name:
return self.pvs.values()
else:
rc = []
for s in pv_name:
# Ths user could be using a symlink instead of the actual
# block device, make sure we are using actual block device file
# if the pv name isn't in the lookup
if s not in self.pv_path_to_uuid:
s = os.path.realpath(s)
rc.append(self.pvs[self.pv_path_to_uuid[s]])
return rc
def pv_missing(self, pv_uuid):
# The uuid might not be a PV, default to false
if pv_uuid in self.pvs:
if self.pvs[pv_uuid]['pv_missing'] == '':
return False
else:
return True
return False
def fetch_vgs(self, vg_name):
if not vg_name:
return self.vgs.values()
else:
rc = []
for s in vg_name:
rc.append(self.vgs[self.vg_name_to_uuid[s]])
return rc
def fetch_lvs(self, lv_names):
try:
if not lv_names:
return self.lvs.values()
else:
rc = []
for s in lv_names:
rc.append(self.lvs[self.lv_full_name_to_uuid[s]])
return rc
except KeyError as ke:
log_error("Key %s not found!" % (str(lv_names)))
log_error("lv name to uuid lookup")
for keys in sorted(self.lv_full_name_to_uuid.keys()):
log_error("%s" % (keys))
log_error("lvs entries by uuid")
for keys in sorted(self.lvs.keys()):
log_error("%s" % (keys))
raise ke
def pv_pe_segments(self, pv_uuid):
pv = self.pvs[pv_uuid]
return list(zip(pv['pvseg_start'], pv['pvseg_size']))
def pv_contained_lv(self, pv_device):
rc = []
if pv_device in self.pv_lvs:
rc = self.pv_lvs[pv_device]
return rc
def lv_contained_pv(self, lv_uuid):
rc = []
if lv_uuid in self.lv_pvs:
rc = self.lv_pvs[lv_uuid]
return rc
def lvs_in_vg(self, vg_uuid):
# Return an array of
# (lv_name, (lv_attr, lv_layout, lv_role), lv_uuid)
rc = []
if vg_uuid in self.lvs_in_vgs:
rc = self.lvs_in_vgs[vg_uuid]
return rc
def pvs_in_vg(self, vg_uuid):
# Returns an array of (pv_name, pv_uuid)
rc = []
if vg_uuid in self.pvs_in_vgs:
rc = self.pvs_in_vgs[vg_uuid]
return rc
def hidden_lvs(self, lv_uuid):
# For a specified LV, return a list of hidden lv_uuid, lv_name
# for it
rc = []
if lv_uuid in self.lvs_hidden:
rc = self.lvs_hidden[lv_uuid]
return rc
if __name__ == "__main__":
os.environ["LC_ALL"] = "C"
os.environ["LVM_COMMAND_PROFILE"] = "lvmdbusd"
pp = prettyprint.PrettyPrinter(indent=4)
ds = DataStore()
ds.refresh()
print("PVS")
for v in ds.pvs.values():
pp.pprint(v)
print('PV missing is %s' % ds.pv_missing(v['pv_uuid']))
print("VGS")
for v in ds.vgs.values():
pp.pprint(v)
print("VG name to UUID")
for k, v in ds.vg_name_to_uuid.items():
print("%s: %s" % (k, v))
print("LVS")
for v in ds.lvs.values():
pp.pprint(v)
print("LVS in VG")
for k, v in ds.lvs_in_vgs.items():
print("VG uuid = %s" % (k))
pp.pprint(v)
print("pv_in_lvs")
for k, v in ds.pv_lvs.items():
print("PV %s contains LVS:" % (k))
pp.pprint(v)
for k, v in ds.lv_pvs.items():
print("LV device = %s" % (k))
pp.pprint(v)