tahoe-lafs/src/allmydata/web/check_results.py

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import time
import simplejson
from nevow import rend, inevow, tags as T
from twisted.web import http, html
from allmydata.web.common import getxmlfile, get_arg, get_root, WebError
from allmydata.web.operations import ReloadMixin
from allmydata.interfaces import ICheckAndRepairResults, ICheckResults
from allmydata.util import base32, idlib
def json_check_counts(d):
r = {}
r["count-shares-good"] = d["count-shares-good"]
r["count-shares-needed"] = d["count-shares-needed"]
r["count-shares-expected"] = d["count-shares-expected"]
r["count-good-share-hosts"] = d["count-good-share-hosts"]
r["count-corrupt-shares"] = d["count-corrupt-shares"]
r["list-corrupt-shares"] = [ (idlib.nodeid_b2a(serverid),
base32.b2a(si), shnum)
for (serverid, si, shnum)
in d["list-corrupt-shares"] ]
r["servers-responding"] = [idlib.nodeid_b2a(serverid)
for serverid in d["servers-responding"]]
sharemap = {}
for (shareid, serverids) in d["sharemap"].items():
sharemap[shareid] = [idlib.nodeid_b2a(serverid)
for serverid in serverids]
r["sharemap"] = sharemap
r["count-wrong-shares"] = d["count-wrong-shares"]
r["count-recoverable-versions"] = d["count-recoverable-versions"]
r["count-unrecoverable-versions"] = d["count-unrecoverable-versions"]
return r
def json_check_results(r):
if r is None:
# LIT file
data = {"storage-index": "",
"results": {"healthy": True},
}
return data
data = {}
data["storage-index"] = r.get_storage_index_string()
data["summary"] = r.get_summary()
data["results"] = json_check_counts(r.get_data())
data["results"]["needs-rebalancing"] = r.needs_rebalancing()
data["results"]["healthy"] = r.is_healthy()
data["results"]["recoverable"] = r.is_recoverable()
return data
def json_check_and_repair_results(r):
if r is None:
# LIT file
data = {"storage-index": "",
"repair-attempted": False,
}
return data
data = {}
data["storage-index"] = r.get_storage_index_string()
data["repair-attempted"] = r.get_repair_attempted()
data["repair-successful"] = r.get_repair_successful()
pre = r.get_pre_repair_results()
data["pre-repair-results"] = json_check_results(pre)
post = r.get_post_repair_results()
data["post-repair-results"] = json_check_results(post)
return data
class ResultsBase:
# self.client must point to the Client, so we can get nicknames and
# determine the permuted peer order
def _join_pathstring(self, path):
if path:
pathstring = "/".join(self._html(path))
else:
pathstring = "<root>"
return pathstring
def _render_results(self, ctx, cr):
assert ICheckResults(cr)
c = self.client
sb = c.get_storage_broker()
data = cr.get_data()
r = []
def add(name, value):
r.append(T.li[name + ": ", value])
add("Report", T.pre["\n".join(self._html(cr.get_report()))])
add("Share Counts",
"need %d-of-%d, have %d" % (data["count-shares-needed"],
data["count-shares-expected"],
data["count-shares-good"]))
add("Hosts with good shares", data["count-good-share-hosts"])
if data["list-corrupt-shares"]:
badsharemap = []
for (serverid, si, shnum) in data["list-corrupt-shares"]:
nickname = sb.get_nickname_for_serverid(serverid)
badsharemap.append(T.tr[T.td["sh#%d" % shnum],
T.td[T.div(class_="nickname")[nickname],
T.div(class_="nodeid")[T.tt[base32.b2a(serverid)]]],
])
add("Corrupt shares", T.table()[
T.tr[T.th["Share ID"],
T.th(class_="nickname-and-peerid")[T.div["Nickname"], T.div(class_="nodeid")["Node ID"]]],
badsharemap])
else:
add("Corrupt shares", "none")
add("Wrong Shares", data["count-wrong-shares"])
sharemap = []
servers = {}
# FIXME: The two tables below contain nickname-and-nodeid table column markup which is duplicated with each other, introducer.xhtml, and deep-check-results.xhtml. All of these (and any other presentations of nickname-and-nodeid) should be combined.
for shareid in sorted(data["sharemap"].keys()):
serverids = data["sharemap"][shareid]
for i,serverid in enumerate(serverids):
if serverid not in servers:
servers[serverid] = []
servers[serverid].append(shareid)
shareid_s = ""
if i == 0:
shareid_s = shareid
nickname = sb.get_nickname_for_serverid(serverid)
sharemap.append(T.tr[T.td[shareid_s],
T.td[T.div(class_="nickname")[nickname],
T.div(class_="nodeid")[T.tt[base32.b2a(serverid)]]]
])
add("Good Shares (sorted in share order)",
T.table()[T.tr[T.th["Share ID"], T.th(class_="nickname-and-peerid")[T.div["Nickname"], T.div(class_="nodeid")["Node ID"]]],
sharemap])
add("Recoverable Versions", data["count-recoverable-versions"])
add("Unrecoverable Versions", data["count-unrecoverable-versions"])
# this table is sorted by permuted order
sb = c.get_storage_broker()
permuted_servers = [s
for s
in sb.get_servers_for_psi(cr.get_storage_index())]
num_shares_left = sum([len(shares) for shares in servers.values()])
servermap = []
for s in permuted_servers:
nickname = s.get_nickname()
shareids = servers.get(s.get_serverid(), [])
shareids.reverse()
shareids_s = [ T.tt[shareid, " "] for shareid in sorted(shareids) ]
servermap.append(T.tr[T.td[T.div(class_="nickname")[nickname],
T.div(class_="nodeid")[T.tt[s.name()]]],
T.td[shareids_s],
])
num_shares_left -= len(shareids)
if not num_shares_left:
break
add("Share Balancing (servers in permuted order)",
T.table()[T.tr[T.th(class_="nickname-and-peerid")[T.div["Nickname"], T.div(class_="nodeid")["Node ID"]], T.th["Share IDs"]],
servermap])
return T.ul[r]
def _html(self, s):
if isinstance(s, (str, unicode)):
return html.escape(s)
assert isinstance(s, (list, tuple))
return [html.escape(w) for w in s]
def want_json(self, ctx):
output = get_arg(inevow.IRequest(ctx), "output", "").lower()
if output.lower() == "json":
return True
return False
def _render_si_link(self, ctx, storage_index):
si_s = base32.b2a(storage_index)
req = inevow.IRequest(ctx)
ophandle = req.prepath[-1]
target = "%s/operations/%s/%s" % (get_root(ctx), ophandle, si_s)
output = get_arg(ctx, "output")
if output:
target = target + "?output=%s" % output
return T.a(href=target)[si_s]
class LiteralCheckResults(rend.Page, ResultsBase):
docFactory = getxmlfile("literal-check-results.xhtml")
def __init__(self, client):
self.client = client
rend.Page.__init__(self, client)
def renderHTTP(self, ctx):
if self.want_json(ctx):
return self.json(ctx)
return rend.Page.renderHTTP(self, ctx)
def json(self, ctx):
inevow.IRequest(ctx).setHeader("content-type", "text/plain")
data = json_check_results(None)
return simplejson.dumps(data, indent=1) + "\n"
def render_return(self, ctx, data):
req = inevow.IRequest(ctx)
return_to = get_arg(req, "return_to", None)
if return_to:
return T.div[T.a(href=return_to)["Return to file."]]
return ""
class CheckerBase:
def renderHTTP(self, ctx):
if self.want_json(ctx):
return self.json(ctx)
return rend.Page.renderHTTP(self, ctx)
def render_storage_index(self, ctx, data):
return self.r.get_storage_index_string()
def render_return(self, ctx, data):
req = inevow.IRequest(ctx)
return_to = get_arg(req, "return_to", None)
if return_to:
return T.div[T.a(href=return_to)["Return to file/directory."]]
return ""
class CheckResults(CheckerBase, rend.Page, ResultsBase):
docFactory = getxmlfile("check-results.xhtml")
def __init__(self, client, results):
self.client = client
self.r = ICheckResults(results)
rend.Page.__init__(self, results)
def json(self, ctx):
inevow.IRequest(ctx).setHeader("content-type", "text/plain")
data = json_check_results(self.r)
return simplejson.dumps(data, indent=1) + "\n"
def render_summary(self, ctx, data):
results = []
if data.is_healthy():
results.append("Healthy")
elif data.is_recoverable():
results.append("Not Healthy!")
else:
results.append("Not Recoverable!")
results.append(" : ")
results.append(self._html(data.get_summary()))
return ctx.tag[results]
def render_repair(self, ctx, data):
if data.is_healthy():
return ""
repair = T.form(action=".", method="post",
enctype="multipart/form-data")[
T.fieldset[
T.input(type="hidden", name="t", value="check"),
T.input(type="hidden", name="repair", value="true"),
T.input(type="submit", value="Repair"),
]]
return "" # repair button disabled until we make it work correctly,
# see #622 for details
return ctx.tag[repair]
def render_results(self, ctx, data):
cr = self._render_results(ctx, data)
return ctx.tag[cr]
class CheckAndRepairResults(CheckerBase, rend.Page, ResultsBase):
docFactory = getxmlfile("check-and-repair-results.xhtml")
def __init__(self, client, results):
self.client = client
self.r = None
if results:
self.r = ICheckAndRepairResults(results)
rend.Page.__init__(self, results)
def json(self, ctx):
inevow.IRequest(ctx).setHeader("content-type", "text/plain")
data = json_check_and_repair_results(self.r)
return simplejson.dumps(data, indent=1) + "\n"
def render_summary(self, ctx, data):
cr = data.get_post_repair_results()
results = []
if cr.is_healthy():
results.append("Healthy")
elif cr.is_recoverable():
results.append("Not Healthy!")
else:
results.append("Not Recoverable!")
results.append(" : ")
results.append(self._html(cr.get_summary()))
return ctx.tag[results]
def render_repair_results(self, ctx, data):
if data.get_repair_attempted():
if data.get_repair_successful():
return ctx.tag["Repair successful"]
else:
return ctx.tag["Repair unsuccessful"]
return ctx.tag["No repair necessary"]
def render_post_repair_results(self, ctx, data):
cr = self._render_results(ctx, data.get_post_repair_results())
return ctx.tag[T.div["Post-Repair Checker Results:"], cr]
def render_maybe_pre_repair_results(self, ctx, data):
if data.get_repair_attempted():
cr = self._render_results(ctx, data.get_pre_repair_results())
return ctx.tag[T.div["Pre-Repair Checker Results:"], cr]
return ""
class DeepCheckResults(rend.Page, ResultsBase, ReloadMixin):
docFactory = getxmlfile("deep-check-results.xhtml")
def __init__(self, client, monitor):
self.client = client
self.monitor = monitor
def childFactory(self, ctx, name):
if not name:
return self
# /operation/$OPHANDLE/$STORAGEINDEX provides detailed information
# about a specific file or directory that was checked
si = base32.a2b(name)
r = self.monitor.get_status()
try:
return CheckResults(self.client,
r.get_results_for_storage_index(si))
except KeyError:
raise WebError("No detailed results for SI %s" % html.escape(name),
http.NOT_FOUND)
def renderHTTP(self, ctx):
if self.want_json(ctx):
return self.json(ctx)
return rend.Page.renderHTTP(self, ctx)
def json(self, ctx):
inevow.IRequest(ctx).setHeader("content-type", "text/plain")
data = {}
data["finished"] = self.monitor.is_finished()
res = self.monitor.get_status()
data["root-storage-index"] = res.get_root_storage_index_string()
c = res.get_counters()
data["count-objects-checked"] = c["count-objects-checked"]
data["count-objects-healthy"] = c["count-objects-healthy"]
data["count-objects-unhealthy"] = c["count-objects-unhealthy"]
data["count-corrupt-shares"] = c["count-corrupt-shares"]
data["list-corrupt-shares"] = [ (idlib.nodeid_b2a(serverid),
base32.b2a(storage_index),
shnum)
for (serverid, storage_index, shnum)
in res.get_corrupt_shares() ]
data["list-unhealthy-files"] = [ (path_t, json_check_results(r))
for (path_t, r)
in res.get_all_results().items()
if not r.is_healthy() ]
data["stats"] = res.get_stats()
return simplejson.dumps(data, indent=1) + "\n"
def render_root_storage_index(self, ctx, data):
return self.monitor.get_status().get_root_storage_index_string()
def data_objects_checked(self, ctx, data):
return self.monitor.get_status().get_counters()["count-objects-checked"]
def data_objects_healthy(self, ctx, data):
return self.monitor.get_status().get_counters()["count-objects-healthy"]
def data_objects_unhealthy(self, ctx, data):
return self.monitor.get_status().get_counters()["count-objects-unhealthy"]
def data_objects_unrecoverable(self, ctx, data):
return self.monitor.get_status().get_counters()["count-objects-unrecoverable"]
def data_count_corrupt_shares(self, ctx, data):
return self.monitor.get_status().get_counters()["count-corrupt-shares"]
def render_problems_p(self, ctx, data):
c = self.monitor.get_status().get_counters()
if c["count-objects-unhealthy"]:
return ctx.tag
return ""
def data_problems(self, ctx, data):
all_objects = self.monitor.get_status().get_all_results()
for path in sorted(all_objects.keys()):
cr = all_objects[path]
assert ICheckResults.providedBy(cr)
if not cr.is_healthy():
yield path, cr
def render_problem(self, ctx, data):
path, cr = data
summary_text = ""
summary = cr.get_summary()
if summary:
summary_text = ": " + summary
summary_text += " [SI: %s]" % cr.get_storage_index_string()
return ctx.tag[self._join_pathstring(path), self._html(summary_text)]
def render_servers_with_corrupt_shares_p(self, ctx, data):
if self.monitor.get_status().get_counters()["count-corrupt-shares"]:
return ctx.tag
return ""
def data_servers_with_corrupt_shares(self, ctx, data):
servers = [serverid
for (serverid, storage_index, sharenum)
in self.monitor.get_status().get_corrupt_shares()]
servers.sort()
return servers
def render_server_problem(self, ctx, data):
serverid = data
data = [idlib.shortnodeid_b2a(serverid)]
sb = self.client.get_storage_broker()
nickname = sb.get_nickname_for_serverid(serverid)
if nickname:
data.append(" (%s)" % self._html(nickname))
return ctx.tag[data]
def render_corrupt_shares_p(self, ctx, data):
if self.monitor.get_status().get_counters()["count-corrupt-shares"]:
return ctx.tag
return ""
def data_corrupt_shares(self, ctx, data):
return self.monitor.get_status().get_corrupt_shares()
def render_share_problem(self, ctx, data):
serverid, storage_index, sharenum = data
sb = self.client.get_storage_broker()
nickname = sb.get_nickname_for_serverid(serverid)
ctx.fillSlots("serverid", idlib.shortnodeid_b2a(serverid))
if nickname:
ctx.fillSlots("nickname", self._html(nickname))
ctx.fillSlots("si", self._render_si_link(ctx, storage_index))
ctx.fillSlots("shnum", str(sharenum))
return ctx.tag
def render_return(self, ctx, data):
req = inevow.IRequest(ctx)
return_to = get_arg(req, "return_to", None)
if return_to:
return T.div[T.a(href=return_to)["Return to file/directory."]]
return ""
def data_all_objects(self, ctx, data):
r = self.monitor.get_status().get_all_results()
for path in sorted(r.keys()):
yield (path, r[path])
def render_object(self, ctx, data):
path, r = data
ctx.fillSlots("path", self._join_pathstring(path))
ctx.fillSlots("healthy", str(r.is_healthy()))
ctx.fillSlots("recoverable", str(r.is_recoverable()))
storage_index = r.get_storage_index()
ctx.fillSlots("storage_index", self._render_si_link(ctx, storage_index))
ctx.fillSlots("summary", self._html(r.get_summary()))
return ctx.tag
def render_runtime(self, ctx, data):
req = inevow.IRequest(ctx)
runtime = time.time() - req.processing_started_timestamp
return ctx.tag["runtime: %s seconds" % runtime]
class DeepCheckAndRepairResults(rend.Page, ResultsBase, ReloadMixin):
docFactory = getxmlfile("deep-check-and-repair-results.xhtml")
def __init__(self, client, monitor):
self.client = client
self.monitor = monitor
def childFactory(self, ctx, name):
if not name:
return self
# /operation/$OPHANDLE/$STORAGEINDEX provides detailed information
# about a specific file or directory that was checked
si = base32.a2b(name)
r = self.monitor.get_status()
try:
return CheckAndRepairResults(self.client,
r.get_results_for_storage_index(si))
except KeyError:
raise WebError("No detailed results for SI %s" % html.escape(name),
http.NOT_FOUND)
def renderHTTP(self, ctx):
if self.want_json(ctx):
return self.json(ctx)
return rend.Page.renderHTTP(self, ctx)
def json(self, ctx):
inevow.IRequest(ctx).setHeader("content-type", "text/plain")
res = self.monitor.get_status()
data = {}
data["finished"] = self.monitor.is_finished()
data["root-storage-index"] = res.get_root_storage_index_string()
c = res.get_counters()
data["count-objects-checked"] = c["count-objects-checked"]
data["count-objects-healthy-pre-repair"] = c["count-objects-healthy-pre-repair"]
data["count-objects-unhealthy-pre-repair"] = c["count-objects-unhealthy-pre-repair"]
data["count-objects-healthy-post-repair"] = c["count-objects-healthy-post-repair"]
data["count-objects-unhealthy-post-repair"] = c["count-objects-unhealthy-post-repair"]
data["count-repairs-attempted"] = c["count-repairs-attempted"]
data["count-repairs-successful"] = c["count-repairs-successful"]
data["count-repairs-unsuccessful"] = c["count-repairs-unsuccessful"]
data["count-corrupt-shares-pre-repair"] = c["count-corrupt-shares-pre-repair"]
data["count-corrupt-shares-post-repair"] = c["count-corrupt-shares-pre-repair"]
data["list-corrupt-shares"] = [ (idlib.nodeid_b2a(serverid),
base32.b2a(storage_index),
shnum)
for (serverid, storage_index, shnum)
in res.get_corrupt_shares() ]
remaining_corrupt = [ (idlib.nodeid_b2a(serverid),
base32.b2a(storage_index),
shnum)
for (serverid, storage_index, shnum)
in res.get_remaining_corrupt_shares() ]
data["list-remaining-corrupt-shares"] = remaining_corrupt
unhealthy = [ (path_t,
json_check_results(crr.get_pre_repair_results()))
for (path_t, crr)
in res.get_all_results().items()
if not crr.get_pre_repair_results().is_healthy() ]
data["list-unhealthy-files"] = unhealthy
data["stats"] = res.get_stats()
return simplejson.dumps(data, indent=1) + "\n"
def render_root_storage_index(self, ctx, data):
return self.monitor.get_status().get_root_storage_index_string()
def data_objects_checked(self, ctx, data):
return self.monitor.get_status().get_counters()["count-objects-checked"]
def data_objects_healthy(self, ctx, data):
return self.monitor.get_status().get_counters()["count-objects-healthy-pre-repair"]
def data_objects_unhealthy(self, ctx, data):
return self.monitor.get_status().get_counters()["count-objects-unhealthy-pre-repair"]
def data_corrupt_shares(self, ctx, data):
return self.monitor.get_status().get_counters()["count-corrupt-shares-pre-repair"]
def data_repairs_attempted(self, ctx, data):
return self.monitor.get_status().get_counters()["count-repairs-attempted"]
def data_repairs_successful(self, ctx, data):
return self.monitor.get_status().get_counters()["count-repairs-successful"]
def data_repairs_unsuccessful(self, ctx, data):
return self.monitor.get_status().get_counters()["count-repairs-unsuccessful"]
def data_objects_healthy_post(self, ctx, data):
return self.monitor.get_status().get_counters()["count-objects-healthy-post-repair"]
def data_objects_unhealthy_post(self, ctx, data):
return self.monitor.get_status().get_counters()["count-objects-unhealthy-post-repair"]
def data_corrupt_shares_post(self, ctx, data):
return self.monitor.get_status().get_counters()["count-corrupt-shares-post-repair"]
def render_pre_repair_problems_p(self, ctx, data):
c = self.monitor.get_status().get_counters()
if c["count-objects-unhealthy-pre-repair"]:
return ctx.tag
return ""
def data_pre_repair_problems(self, ctx, data):
all_objects = self.monitor.get_status().get_all_results()
for path in sorted(all_objects.keys()):
r = all_objects[path]
assert ICheckAndRepairResults.providedBy(r)
cr = r.get_pre_repair_results()
if not cr.is_healthy():
yield path, cr
def render_problem(self, ctx, data):
path, cr = data
return ctx.tag[self._join_pathstring(path), ": ",
self._html(cr.get_summary())]
def render_post_repair_problems_p(self, ctx, data):
c = self.monitor.get_status().get_counters()
if (c["count-objects-unhealthy-post-repair"]
or c["count-corrupt-shares-post-repair"]):
return ctx.tag
return ""
def data_post_repair_problems(self, ctx, data):
all_objects = self.monitor.get_status().get_all_results()
for path in sorted(all_objects.keys()):
r = all_objects[path]
assert ICheckAndRepairResults.providedBy(r)
cr = r.get_post_repair_results()
if not cr.is_healthy():
yield path, cr
def render_servers_with_corrupt_shares_p(self, ctx, data):
if self.monitor.get_status().get_counters()["count-corrupt-shares-pre-repair"]:
return ctx.tag
return ""
def data_servers_with_corrupt_shares(self, ctx, data):
return [] # TODO
def render_server_problem(self, ctx, data):
pass
def render_remaining_corrupt_shares_p(self, ctx, data):
if self.monitor.get_status().get_counters()["count-corrupt-shares-post-repair"]:
return ctx.tag
return ""
def data_post_repair_corrupt_shares(self, ctx, data):
return [] # TODO
def render_share_problem(self, ctx, data):
pass
def render_return(self, ctx, data):
req = inevow.IRequest(ctx)
return_to = get_arg(req, "return_to", None)
if return_to:
return T.div[T.a(href=return_to)["Return to file/directory."]]
return ""
def data_all_objects(self, ctx, data):
r = self.monitor.get_status().get_all_results()
for path in sorted(r.keys()):
yield (path, r[path])
def render_object(self, ctx, data):
path, r = data
ctx.fillSlots("path", self._join_pathstring(path))
ctx.fillSlots("healthy_pre_repair",
str(r.get_pre_repair_results().is_healthy()))
ctx.fillSlots("recoverable_pre_repair",
str(r.get_pre_repair_results().is_recoverable()))
ctx.fillSlots("healthy_post_repair",
str(r.get_post_repair_results().is_healthy()))
storage_index = r.get_storage_index()
ctx.fillSlots("storage_index",
self._render_si_link(ctx, storage_index))
ctx.fillSlots("summary",
self._html(r.get_pre_repair_results().get_summary()))
return ctx.tag
def render_runtime(self, ctx, data):
req = inevow.IRequest(ctx)
runtime = time.time() - req.processing_started_timestamp
return ctx.tag["runtime: %s seconds" % runtime]