tahoe-lafs/src/allmydata/client.py

486 lines
21 KiB
Python
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import os, stat, time, weakref
from allmydata.interfaces import RIStorageServer
from allmydata import node
from zope.interface import implements
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from twisted.internet import reactor
from twisted.application.internet import TimerService
from foolscap.api import Referenceable
from pycryptopp.publickey import rsa
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import allmydata
from allmydata.storage.server import StorageServer
from allmydata import storage_client
from allmydata.immutable.upload import Uploader
from allmydata.immutable.download import Downloader
from allmydata.immutable.filenode import FileNode, LiteralFileNode
from allmydata.immutable.offloaded import Helper
from allmydata.control import ControlServer
from allmydata.introducer.client import IntroducerClient
from allmydata.util import hashutil, base32, pollmixin, cachedir, log
from allmydata.util.abbreviate import parse_abbreviated_size
from allmydata.util.time_format import parse_duration, parse_date
from allmydata.uri import LiteralFileURI
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from allmydata.dirnode import NewDirectoryNode
from allmydata.mutable.filenode import MutableFileNode
stats: add a simple stats gathering system We have a desire to collect runtime statistics from multiple nodes primarily for server monitoring purposes. This implements a simple implementation of such a system, as a skeleton to build more sophistication upon. Each client now looks for a 'stats_gatherer.furl' config file. If it has been configured to use a stats gatherer, then it instantiates internally a StatsProvider. This is a central place for code which wishes to offer stats up for monitoring to report them to, either by calling stats_provider.count('stat.name', value) to increment a counter, or by registering a class as a stats producer with sp.register_producer(obj). The StatsProvider connects to the StatsGatherer server and provides its provider upon startup. The StatsGatherer is then responsible for polling the attached providers periodically to retrieve the data provided. The provider queries each registered producer when the gatherer queries the provider. Both the internal 'counters' and the queried 'stats' are then reported to the gatherer. This provides a simple gatherer app, (c.f. make stats-gatherer-run) which prints its furl and listens for incoming connections. Once a minute, the gatherer polls all connected providers, and writes the retrieved data into a pickle file. Also included is a munin plugin which knows how to read the gatherer's stats.pickle and output data munin can interpret. this plugin, tahoe-stats.py can be symlinked as multiple different names within munin's 'plugins' directory, and inspects argv to determine which data to display, doing a lookup in a table within that file. It looks in the environment for 'statsfile' to determine the path to the gatherer's stats.pickle. An example plugins-conf.d file is provided.
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from allmydata.stats import StatsProvider
from allmydata.history import History
from allmydata.interfaces import IURI, INewDirectoryURI, IStatsProducer, \
IReadonlyNewDirectoryURI, IFileURI, IMutableFileURI, RIStubClient
KiB=1024
MiB=1024*KiB
GiB=1024*MiB
TiB=1024*GiB
PiB=1024*TiB
class StubClient(Referenceable):
implements(RIStubClient)
def _make_secret():
return base32.b2a(os.urandom(hashutil.CRYPTO_VAL_SIZE)) + "\n"
class Client(node.Node, pollmixin.PollMixin):
implements(IStatsProducer)
PORTNUMFILE = "client.port"
STOREDIR = 'storage'
NODETYPE = "client"
SUICIDE_PREVENTION_HOTLINE_FILE = "suicide_prevention_hotline"
# This means that if a storage server treats me as though I were a
# 1.0.0 storage client, it will work as they expect.
OLDEST_SUPPORTED_VERSION = "1.0.0"
# this is a tuple of (needed, desired, total, max_segment_size). 'needed'
# is the number of shares required to reconstruct a file. 'desired' means
# that we will abort an upload unless we can allocate space for at least
# this many. 'total' is the total number of shares created by encoding.
# If everybody has room then this is is how many we will upload.
DEFAULT_ENCODING_PARAMETERS = {"k": 3,
"happy": 7,
"n": 10,
"max_segment_size": 128*KiB,
}
# set this to override the size of the RSA keys created for new mutable
# files. The default of None means to let mutable.filenode choose its own
# size, which means 2048 bits.
DEFAULT_MUTABLE_KEYSIZE = None
def __init__(self, basedir="."):
node.Node.__init__(self, basedir)
self.started_timestamp = time.time()
self.logSource="Client"
self.DEFAULT_ENCODING_PARAMETERS = self.DEFAULT_ENCODING_PARAMETERS.copy()
self.init_introducer_client()
stats: add a simple stats gathering system We have a desire to collect runtime statistics from multiple nodes primarily for server monitoring purposes. This implements a simple implementation of such a system, as a skeleton to build more sophistication upon. Each client now looks for a 'stats_gatherer.furl' config file. If it has been configured to use a stats gatherer, then it instantiates internally a StatsProvider. This is a central place for code which wishes to offer stats up for monitoring to report them to, either by calling stats_provider.count('stat.name', value) to increment a counter, or by registering a class as a stats producer with sp.register_producer(obj). The StatsProvider connects to the StatsGatherer server and provides its provider upon startup. The StatsGatherer is then responsible for polling the attached providers periodically to retrieve the data provided. The provider queries each registered producer when the gatherer queries the provider. Both the internal 'counters' and the queried 'stats' are then reported to the gatherer. This provides a simple gatherer app, (c.f. make stats-gatherer-run) which prints its furl and listens for incoming connections. Once a minute, the gatherer polls all connected providers, and writes the retrieved data into a pickle file. Also included is a munin plugin which knows how to read the gatherer's stats.pickle and output data munin can interpret. this plugin, tahoe-stats.py can be symlinked as multiple different names within munin's 'plugins' directory, and inspects argv to determine which data to display, doing a lookup in a table within that file. It looks in the environment for 'statsfile' to determine the path to the gatherer's stats.pickle. An example plugins-conf.d file is provided.
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self.init_stats_provider()
self.init_lease_secret()
self.init_storage()
self.init_control()
if self.get_config("helper", "enabled", False, boolean=True):
self.init_helper()
self.init_client()
self._key_generator = None
key_gen_furl = self.get_config("client", "key_generator.furl", None)
if key_gen_furl:
self.init_key_gen(key_gen_furl)
# ControlServer and Helper are attached after Tub startup
self.init_ftp_server()
self.init_sftp_server()
hotline_file = os.path.join(self.basedir,
self.SUICIDE_PREVENTION_HOTLINE_FILE)
if os.path.exists(hotline_file):
age = time.time() - os.stat(hotline_file)[stat.ST_MTIME]
self.log("hotline file noticed (%ds old), starting timer" % age)
hotline = TimerService(1.0, self._check_hotline, hotline_file)
hotline.setServiceParent(self)
# this needs to happen last, so it can use getServiceNamed() to
# acquire references to StorageServer and other web-statusable things
webport = self.get_config("node", "web.port", None)
if webport:
self.init_web(webport) # strports string
def read_old_config_files(self):
node.Node.read_old_config_files(self)
copy = self._copy_config_from_file
copy("introducer.furl", "client", "introducer.furl")
copy("helper.furl", "client", "helper.furl")
copy("key_generator.furl", "client", "key_generator.furl")
copy("stats_gatherer.furl", "client", "stats_gatherer.furl")
if os.path.exists(os.path.join(self.basedir, "no_storage")):
self.set_config("storage", "enabled", "false")
if os.path.exists(os.path.join(self.basedir, "readonly_storage")):
self.set_config("storage", "readonly", "true")
if os.path.exists(os.path.join(self.basedir, "debug_discard_storage")):
self.set_config("storage", "debug_discard", "true")
if os.path.exists(os.path.join(self.basedir, "run_helper")):
self.set_config("helper", "enabled", "true")
def init_introducer_client(self):
self.introducer_furl = self.get_config("client", "introducer.furl")
ic = IntroducerClient(self.tub, self.introducer_furl,
self.nickname,
str(allmydata.__full_version__),
str(self.OLDEST_SUPPORTED_VERSION))
self.introducer_client = ic
# hold off on starting the IntroducerClient until our tub has been
# started, so we'll have a useful address on our RemoteReference, so
# that the introducer's status page will show us.
d = self.when_tub_ready()
def _start_introducer_client(res):
ic.setServiceParent(self)
d.addCallback(_start_introducer_client)
d.addErrback(log.err, facility="tahoe.init",
level=log.BAD, umid="URyI5w")
stats: add a simple stats gathering system We have a desire to collect runtime statistics from multiple nodes primarily for server monitoring purposes. This implements a simple implementation of such a system, as a skeleton to build more sophistication upon. Each client now looks for a 'stats_gatherer.furl' config file. If it has been configured to use a stats gatherer, then it instantiates internally a StatsProvider. This is a central place for code which wishes to offer stats up for monitoring to report them to, either by calling stats_provider.count('stat.name', value) to increment a counter, or by registering a class as a stats producer with sp.register_producer(obj). The StatsProvider connects to the StatsGatherer server and provides its provider upon startup. The StatsGatherer is then responsible for polling the attached providers periodically to retrieve the data provided. The provider queries each registered producer when the gatherer queries the provider. Both the internal 'counters' and the queried 'stats' are then reported to the gatherer. This provides a simple gatherer app, (c.f. make stats-gatherer-run) which prints its furl and listens for incoming connections. Once a minute, the gatherer polls all connected providers, and writes the retrieved data into a pickle file. Also included is a munin plugin which knows how to read the gatherer's stats.pickle and output data munin can interpret. this plugin, tahoe-stats.py can be symlinked as multiple different names within munin's 'plugins' directory, and inspects argv to determine which data to display, doing a lookup in a table within that file. It looks in the environment for 'statsfile' to determine the path to the gatherer's stats.pickle. An example plugins-conf.d file is provided.
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def init_stats_provider(self):
gatherer_furl = self.get_config("client", "stats_gatherer.furl", None)
self.stats_provider = StatsProvider(self, gatherer_furl)
self.add_service(self.stats_provider)
self.stats_provider.register_producer(self)
stats: add a simple stats gathering system We have a desire to collect runtime statistics from multiple nodes primarily for server monitoring purposes. This implements a simple implementation of such a system, as a skeleton to build more sophistication upon. Each client now looks for a 'stats_gatherer.furl' config file. If it has been configured to use a stats gatherer, then it instantiates internally a StatsProvider. This is a central place for code which wishes to offer stats up for monitoring to report them to, either by calling stats_provider.count('stat.name', value) to increment a counter, or by registering a class as a stats producer with sp.register_producer(obj). The StatsProvider connects to the StatsGatherer server and provides its provider upon startup. The StatsGatherer is then responsible for polling the attached providers periodically to retrieve the data provided. The provider queries each registered producer when the gatherer queries the provider. Both the internal 'counters' and the queried 'stats' are then reported to the gatherer. This provides a simple gatherer app, (c.f. make stats-gatherer-run) which prints its furl and listens for incoming connections. Once a minute, the gatherer polls all connected providers, and writes the retrieved data into a pickle file. Also included is a munin plugin which knows how to read the gatherer's stats.pickle and output data munin can interpret. this plugin, tahoe-stats.py can be symlinked as multiple different names within munin's 'plugins' directory, and inspects argv to determine which data to display, doing a lookup in a table within that file. It looks in the environment for 'statsfile' to determine the path to the gatherer's stats.pickle. An example plugins-conf.d file is provided.
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def get_stats(self):
return { 'node.uptime': time.time() - self.started_timestamp }
def init_lease_secret(self):
secret_s = self.get_or_create_private_config("secret", _make_secret)
self._lease_secret = base32.a2b(secret_s)
def init_storage(self):
# should we run a storage server (and publish it for others to use)?
if not self.get_config("storage", "enabled", True, boolean=True):
return
readonly = self.get_config("storage", "readonly", False, boolean=True)
storedir = os.path.join(self.basedir, self.STOREDIR)
data = self.get_config("storage", "reserved_space", None)
reserved = None
try:
reserved = parse_abbreviated_size(data)
except ValueError:
log.msg("[storage]reserved_space= contains unparseable value %s"
% data)
if reserved is None:
reserved = 0
discard = self.get_config("storage", "debug_discard", False,
boolean=True)
expire = self.get_config("storage", "expire.enabled", False, boolean=True)
if expire:
mode = self.get_config("storage", "expire.mode") # require a mode
else:
mode = self.get_config("storage", "expire.mode", "age")
o_l_d = self.get_config("storage", "expire.override_lease_duration", None)
if o_l_d is not None:
o_l_d = parse_duration(o_l_d)
cutoff_date = None
if mode == "cutoff-date":
cutoff_date = self.get_config("storage", "expire.cutoff_date")
cutoff_date = parse_date(cutoff_date)
sharetypes = []
if self.get_config("storage", "expire.immutable", True, boolean=True):
sharetypes.append("immutable")
if self.get_config("storage", "expire.mutable", True, boolean=True):
sharetypes.append("mutable")
expiration_sharetypes = tuple(sharetypes)
ss = StorageServer(storedir, self.nodeid,
reserved_space=reserved,
discard_storage=discard,
readonly_storage=readonly,
stats_provider=self.stats_provider,
expiration_enabled=expire,
expiration_mode=mode,
expiration_override_lease_duration=o_l_d,
expiration_cutoff_date=cutoff_date,
expiration_sharetypes=expiration_sharetypes)
self.add_service(ss)
d = self.when_tub_ready()
# we can't do registerReference until the Tub is ready
def _publish(res):
furl_file = os.path.join(self.basedir, "private", "storage.furl")
furl = self.tub.registerReference(ss, furlFile=furl_file)
ri_name = RIStorageServer.__remote_name__
self.introducer_client.publish(furl, "storage", ri_name)
d.addCallback(_publish)
d.addErrback(log.err, facility="tahoe.init",
level=log.BAD, umid="aLGBKw")
def init_client(self):
helper_furl = self.get_config("client", "helper.furl", None)
DEP = self.DEFAULT_ENCODING_PARAMETERS
DEP["k"] = int(self.get_config("client", "shares.needed", DEP["k"]))
DEP["n"] = int(self.get_config("client", "shares.total", DEP["n"]))
DEP["happy"] = int(self.get_config("client", "shares.happy", DEP["happy"]))
convergence_s = self.get_or_create_private_config('convergence', _make_secret)
self.convergence = base32.a2b(convergence_s)
self._node_cache = weakref.WeakValueDictionary() # uri -> node
self.init_client_storage_broker()
self.add_service(History(self.stats_provider))
self.add_service(Uploader(helper_furl, self.stats_provider))
download_cachedir = os.path.join(self.basedir,
"private", "cache", "download")
self.download_cache = cachedir.CacheDirectoryManager(download_cachedir)
self.download_cache.setServiceParent(self)
self.add_service(Downloader(self.stats_provider))
self.init_stub_client()
def init_client_storage_broker(self):
# create a StorageFarmBroker object, for use by Uploader/Downloader
# (and everybody else who wants to use storage servers)
sb = storage_client.StorageFarmBroker(self.tub, permute_peers=True)
self.storage_broker = sb
# load static server specifications from tahoe.cfg, if any.
# Not quite ready yet.
#if self.config.has_section("client-server-selection"):
# server_params = {} # maps serverid to dict of parameters
# for (name, value) in self.config.items("client-server-selection"):
# pieces = name.split(".")
# if pieces[0] == "server":
# serverid = pieces[1]
# if serverid not in server_params:
# server_params[serverid] = {}
# server_params[serverid][pieces[2]] = value
# for serverid, params in server_params.items():
# server_type = params.pop("type")
# if server_type == "tahoe-foolscap":
# s = storage_client.NativeStorageClient(*params)
# else:
# msg = ("unrecognized server type '%s' in "
# "tahoe.cfg [client-server-selection]server.%s.type"
# % (server_type, serverid))
# raise storage_client.UnknownServerTypeError(msg)
# sb.add_server(s.serverid, s)
# check to see if we're supposed to use the introducer too
if self.get_config("client-server-selection", "use_introducer",
default=True, boolean=True):
sb.use_introducer(self.introducer_client)
def get_storage_broker(self):
return self.storage_broker
def init_stub_client(self):
def _publish(res):
# we publish an empty object so that the introducer can count how
# many clients are connected and see what versions they're
# running.
sc = StubClient()
furl = self.tub.registerReference(sc)
ri_name = RIStubClient.__remote_name__
self.introducer_client.publish(furl, "stub_client", ri_name)
d = self.when_tub_ready()
d.addCallback(_publish)
d.addErrback(log.err, facility="tahoe.init",
level=log.BAD, umid="OEHq3g")
def get_history(self):
return self.getServiceNamed("history")
def init_control(self):
d = self.when_tub_ready()
def _publish(res):
c = ControlServer()
c.setServiceParent(self)
control_url = self.tub.registerReference(c)
self.write_private_config("control.furl", control_url + "\n")
d.addCallback(_publish)
d.addErrback(log.err, facility="tahoe.init",
level=log.BAD, umid="d3tNXA")
def init_helper(self):
d = self.when_tub_ready()
def _publish(self):
h = Helper(os.path.join(self.basedir, "helper"), self.stats_provider)
h.setServiceParent(self)
# TODO: this is confusing. BASEDIR/private/helper.furl is created
# by the helper. BASEDIR/helper.furl is consumed by the client
# who wants to use the helper. I like having the filename be the
# same, since that makes 'cp' work smoothly, but the difference
# between config inputs and generated outputs is hard to see.
helper_furlfile = os.path.join(self.basedir,
"private", "helper.furl")
self.tub.registerReference(h, furlFile=helper_furlfile)
d.addCallback(_publish)
d.addErrback(log.err, facility="tahoe.init",
level=log.BAD, umid="K0mW5w")
def init_key_gen(self, key_gen_furl):
d = self.when_tub_ready()
def _subscribe(self):
self.tub.connectTo(key_gen_furl, self._got_key_generator)
d.addCallback(_subscribe)
d.addErrback(log.err, facility="tahoe.init",
level=log.BAD, umid="z9DMzw")
def _got_key_generator(self, key_generator):
self._key_generator = key_generator
key_generator.notifyOnDisconnect(self._lost_key_generator)
def _lost_key_generator(self):
self._key_generator = None
def init_web(self, webport):
self.log("init_web(webport=%s)", args=(webport,))
from allmydata.webish import WebishServer
nodeurl_path = os.path.join(self.basedir, "node.url")
staticdir = self.get_config("node", "web.static", "public_html")
staticdir = os.path.expanduser(staticdir)
ws = WebishServer(self, webport, nodeurl_path, staticdir)
self.add_service(ws)
def init_ftp_server(self):
if self.get_config("ftpd", "enabled", False, boolean=True):
accountfile = self.get_config("ftpd", "accounts.file", None)
accounturl = self.get_config("ftpd", "accounts.url", None)
ftp_portstr = self.get_config("ftpd", "port", "8021")
from allmydata.frontends import ftpd
s = ftpd.FTPServer(self, accountfile, accounturl, ftp_portstr)
s.setServiceParent(self)
def init_sftp_server(self):
if self.get_config("sftpd", "enabled", False, boolean=True):
accountfile = self.get_config("sftpd", "accounts.file", None)
accounturl = self.get_config("sftpd", "accounts.url", None)
sftp_portstr = self.get_config("sftpd", "port", "8022")
pubkey_file = self.get_config("sftpd", "host_pubkey_file")
privkey_file = self.get_config("sftpd", "host_privkey_file")
from allmydata.frontends import sftpd
s = sftpd.SFTPServer(self, accountfile, accounturl,
sftp_portstr, pubkey_file, privkey_file)
s.setServiceParent(self)
def _check_hotline(self, hotline_file):
if os.path.exists(hotline_file):
mtime = os.stat(hotline_file)[stat.ST_MTIME]
if mtime > time.time() - 120.0:
return
else:
self.log("hotline file too old, shutting down")
else:
self.log("hotline file missing, shutting down")
reactor.stop()
def get_encoding_parameters(self):
return self.DEFAULT_ENCODING_PARAMETERS
def connected_to_introducer(self):
if self.introducer_client:
return self.introducer_client.connected_to_introducer()
return False
def get_renewal_secret(self):
return hashutil.my_renewal_secret_hash(self._lease_secret)
def get_cancel_secret(self):
return hashutil.my_cancel_secret_hash(self._lease_secret)
def debug_wait_for_client_connections(self, num_clients):
"""Return a Deferred that fires (with None) when we have connections
to the given number of peers. Useful for tests that set up a
temporary test network and need to know when it is safe to proceed
with an upload or download."""
def _check():
return len(self.storage_broker.get_all_servers()) >= num_clients
d = self.poll(_check, 0.5)
d.addCallback(lambda res: None)
return d
# these four methods are the primitives for creating filenodes and
# dirnodes. The first takes a URI and produces a filenode or (new-style)
# dirnode. The other three create brand-new filenodes/dirnodes.
def create_node_from_uri(self, u, readcap=None):
# this returns synchronously.
if not u:
u = readcap
u = IURI(u)
u_s = u.to_string()
if u_s not in self._node_cache:
if IReadonlyNewDirectoryURI.providedBy(u):
# new-style read-only dirnodes
node = NewDirectoryNode(self).init_from_uri(u)
elif INewDirectoryURI.providedBy(u):
# new-style dirnodes
node = NewDirectoryNode(self).init_from_uri(u)
elif IFileURI.providedBy(u):
if isinstance(u, LiteralFileURI):
node = LiteralFileNode(u, self) # LIT
else:
key = base32.b2a(u.storage_index)
cachefile = self.download_cache.get_file(key)
node = FileNode(u, self, cachefile) # CHK
else:
assert IMutableFileURI.providedBy(u), u
node = MutableFileNode(self).init_from_uri(u)
self._node_cache[u_s] = node
return self._node_cache[u_s]
def create_empty_dirnode(self):
n = NewDirectoryNode(self)
d = n.create(self._generate_pubprivkeys, self.DEFAULT_MUTABLE_KEYSIZE)
d.addCallback(lambda res: n)
return d
def create_mutable_file(self, contents="", keysize=None):
keysize = keysize or self.DEFAULT_MUTABLE_KEYSIZE
n = MutableFileNode(self)
d = n.create(contents, self._generate_pubprivkeys, keysize=keysize)
d.addCallback(lambda res: n)
return d
def _generate_pubprivkeys(self, key_size):
if self._key_generator:
d = self._key_generator.callRemote('get_rsa_key_pair', key_size)
def make_key_objs((verifying_key, signing_key)):
v = rsa.create_verifying_key_from_string(verifying_key)
s = rsa.create_signing_key_from_string(signing_key)
return v, s
d.addCallback(make_key_objs)
return d
else:
# RSA key generation for a 2048 bit key takes between 0.8 and 3.2
# secs
signer = rsa.generate(key_size)
verifier = signer.get_verifying_key()
return verifier, signer
def upload(self, uploadable):
uploader = self.getServiceNamed("uploader")
return uploader.upload(uploadable, history=self.get_history())
def list_all_upload_statuses(self):
return self.get_history().list_all_upload_statuses()
def list_all_download_statuses(self):
return self.get_history().list_all_download_statuses()
def list_all_mapupdate_statuses(self):
return self.get_history().list_all_mapupdate_statuses()
def list_all_publish_statuses(self):
return self.get_history().list_all_publish_statuses()
def list_all_retrieve_statuses(self):
return self.get_history().list_all_retrieve_statuses()
def list_all_helper_statuses(self):
try:
helper = self.getServiceNamed("helper")
except KeyError:
return []
return helper.get_all_upload_statuses()