def check(self, verify=False, add_lease=False):
servermap = ServerMap()
u = ServermapUpdater(self._node, self._storage_broker, self._monitor,
servermap, MODE_CHECK, add_lease=add_lease)
if self._history:
self._history.notify_mapupdate(u.get_status())
d = u.update()
d.addCallback(self._got_mapupdate_results)
if verify:
d.addCallback(self._verify_all_shares)
d.addCallback(lambda res: servermap)
d.addCallback(self._fill_checker_results, self.results)
d.addCallback(lambda res: self.results)
return d
def check(self, verify=False, add_lease=False):
servermap = ServerMap()
# Updating the servermap in MODE_CHECK will stand a good chance
# of finding all of the shares, and getting a good idea of
# recoverability, etc, without verifying.
u = ServermapUpdater(self._node, self._storage_broker, self._monitor,
servermap, self.SERVERMAP_MODE,
add_lease=add_lease)
if self._history:
self._history.notify_mapupdate(u.get_status())
d = u.update()
d.addCallback(self._got_mapupdate_results)
if verify:
d.addCallback(self._verify_all_shares)
d.addCallback(lambda res: servermap)
d.addCallback(self._make_checker_results)
return d
def check(self, verify=False, add_lease=False):
servermap = ServerMap()
u = ServermapUpdater(self._node,
self._storage_broker,
self._monitor,
servermap,
MODE_CHECK,
add_lease=add_lease)
if self._history:
self._history.notify_mapupdate(u.get_status())
d = u.update()
d.addCallback(self._got_mapupdate_results)
if verify:
d.addCallback(self._verify_all_shares)
d.addCallback(lambda res: servermap)
d.addCallback(self._fill_checker_results, self.results)
d.addCallback(lambda res: self.results)
return d
def start(self, force=False):
# download, then re-publish. If a server had a bad share, try to
# replace it with a good one of the same shnum.
# The normal repair operation should not be used to replace
# application-specific merging of alternate versions: i.e if there
# are multiple highest seqnums with different roothashes. In this
# case, the application must use node.upload() (referencing the
# servermap that indicates the multiple-heads condition), or
# node.overwrite(). The repair() operation will refuse to run in
# these conditions unless a force=True argument is provided. If
# force=True is used, then the highest root hash will be reinforced.
# Likewise, the presence of an unrecoverable latest version is an
# unusual event, and should ideally be handled by retrying a couple
# times (spaced out over hours or days) and hoping that new shares
# will become available. If repair(force=True) is called, data will
# be lost: a new seqnum will be generated with the same contents as
# the most recent recoverable version, skipping over the lost
# version. repair(force=False) will refuse to run in a situation like
# this.
# Repair is designed to fix the following injuries:
# missing shares: add new ones to get at least N distinct ones
# old shares: replace old shares with the latest version
# bogus shares (bad sigs): replace the bad one with a good one
# first, update the servermap in MODE_REPAIR, which files all shares
# and makes sure we get the privkey.
u = ServermapUpdater(self.node, self._storage_broker, self._monitor,
ServerMap(), MODE_REPAIR)
if self._history:
self._history.notify_mapupdate(u.get_status())
d = u.update()
d.addCallback(self._got_full_servermap, force)
return d
def start(self, force=False):
# download, then re-publish. If a server had a bad share, try to
# replace it with a good one of the same shnum.
# The normal repair operation should not be used to replace
# application-specific merging of alternate versions: i.e if there
# are multiple highest seqnums with different roothashes. In this
# case, the application must use node.upload() (referencing the
# servermap that indicates the multiple-heads condition), or
# node.overwrite(). The repair() operation will refuse to run in
# these conditions unless a force=True argument is provided. If
# force=True is used, then the highest root hash will be reinforced.
# Likewise, the presence of an unrecoverable latest version is an
# unusual event, and should ideally be handled by retrying a couple
# times (spaced out over hours or days) and hoping that new shares
# will become available. If repair(force=True) is called, data will
# be lost: a new seqnum will be generated with the same contents as
# the most recent recoverable version, skipping over the lost
# version. repair(force=False) will refuse to run in a situation like
# this.
# Repair is designed to fix the following injuries:
# missing shares: add new ones to get at least N distinct ones
# old shares: replace old shares with the latest version
# bogus shares (bad sigs): replace the bad one with a good one
# first, update the servermap in MODE_REPAIR, which files all shares
# and makes sure we get the privkey.
u = ServermapUpdater(self.node, self._storage_broker, self._monitor,
ServerMap(), MODE_REPAIR)
if self._history:
self._history.notify_mapupdate(u.get_status())
d = u.update()
d.addCallback(self._got_full_servermap, force)
return d
def _update_servermap(self, servermap, mode):
u = ServermapUpdater(self, self._storage_broker, Monitor(), servermap,
mode)
if self._history:
self._history.notify_mapupdate(u.get_status())
return u.update()
def _update_servermap(self, servermap, mode):
u = ServermapUpdater(self, self._storage_broker, Monitor(), servermap,
mode)
if self._history:
self._history.notify_mapupdate(u.get_status())
return u.update()