openmedialibrary/oml/nodes.py
2015-02-27 16:19:56 +05:30

432 lines
14 KiB
Python

# -*- coding: utf-8 -*-
# vi:si:et:sw=4:sts=4:ts=4
from queue import Queue
from threading import Thread
import json
import socket
from io import BytesIO
import gzip
import urllib.request, urllib.error, urllib.parse
from datetime import datetime
import os
import time
import ox
import ed25519
from tornado.ioloop import PeriodicCallback
import settings
import user.models
from changelog import Changelog
import directory
from websocket import trigger_event
from localnodes import LocalNodes
from ssl_request import get_opener
import state
import db
import logging
logger = logging.getLogger('oml.nodes')
ENCODING='base64'
class Node(Thread):
_running = True
_cert = None
host = None
online = False
download_speed = 0
TIMEOUT = 5
def __init__(self, nodes, user):
self._nodes = nodes
self.user_id = user.id
key = user.id.encode()
self.vk = ed25519.VerifyingKey(key, encoding=ENCODING)
logger.debug('new Node %s online=%s', self.user_id, self.online)
self._q = Queue()
Thread.__init__(self)
self.daemon = True
self.start()
self._ping = PeriodicCallback(self.ping, 120000)
self._ping.start()
self.ping()
def run(self):
while self._running:
action = self._q.get()
if not self._running:
break
if action == 'go_online' or not self.online:
self._go_online()
else:
self.online = self.can_connect()
def join(self):
self._running = False
self.ping()
#return Thread.join(self)
def ping(self):
self._q.put('')
def go_online(self):
self._q.put('go_online')
@property
def url(self):
if self.host:
if ':' in self.host:
url = 'https://[%s]:%s' % (self.host, self.port)
else:
url = 'https://%s:%s' % (self.host, self.port)
else:
url = None
return url
def resolve(self):
logger.debug('resolve node')
r = self.get_local()
if not r:
try:
r = directory.get(self.vk)
except:
logger.debug('directory failed', exc_info=1)
r = None
if r:
self.host = r['host']
if 'port' in r:
self.port = r['port']
if r['cert'] != self._cert:
self._cert = r['cert']
self._opener = get_opener(self._cert)
else:
self.host = None
self.port = 9851
def get_local(self):
if self._nodes and self._nodes._local:
local = self._nodes._local.get(self.user_id)
if local and local['cert'] != self._cert:
self._cert = local['cert']
self._opener = get_opener(self._cert)
return local
return None
def request(self, action, *args):
url = self.url
if not url:
self.resolve()
url = self.url
if not self.url:
logger.debug('unable to find host %s', self.user_id)
self.online = False
return None
content = json.dumps([action, args]).encode()
sig = settings.sk.sign(content, encoding=ENCODING).decode()
headers = {
'User-Agent': settings.USER_AGENT,
'X-Node-Protocol': settings.NODE_PROTOCOL,
'Accept': 'text/plain',
'Accept-Encoding': 'gzip',
'Content-Type': 'application/json',
'X-Ed25519-Key': settings.USER_ID,
'X-Ed25519-Signature': sig,
}
self._opener.addheaders = list(zip(list(headers.keys()), list(headers.values())))
logger.debug('headers: %s', self._opener.addheaders)
try:
self._opener.timeout = self.TIMEOUT
r = self._opener.open(url, data=content)
except urllib.error.HTTPError as e:
if e.code == 403:
logger.debug('REMOTE ENDED PEERING')
with db.session():
u = self.user
if u.peered:
u.update_peering(False)
self.online = False
return
logger.debug('urllib2.HTTPError %s %s', e, e.code)
self.online = False
return None
except urllib.error.URLError as e:
logger.debug('urllib2.URLError %s', e)
self.online = False
return None
except:
logger.debug('unknown url error', exc_info=1)
self.online = False
return None
data = r.read()
if r.headers.get('content-encoding', None) == 'gzip':
data = gzip.GzipFile(fileobj=BytesIO(data)).read()
version = r.headers.get('X-Node-Protocol', None)
if version != settings.NODE_PROTOCOL:
logger.debug('version does not match local: %s remote %s', settings.NODE_PROTOCOL, version)
self.online = False
if version > settings.NODE_PROTOCOL:
state.update_required = True
return None
sig = r.headers.get('X-Ed25519-Signature')
if sig and self._valid(data, sig):
response = json.loads(data.decode('utf-8'))
else:
logger.debug('invalid signature %s', data)
response = None
logger.debug('response: %s', response)
return response
def _valid(self, data, sig):
if isinstance(data, str):
data = data.encode()
try:
self.vk.verify(sig, data, encoding=ENCODING)
#except ed25519.BadSignatureError:
except:
return False
return True
@property
def user(self):
with db.session():
return user.models.User.get_or_create(self.user_id)
def can_connect(self):
try:
url = self.url
if url:
headers = {
'User-Agent': settings.USER_AGENT,
'X-Node-Protocol': settings.NODE_PROTOCOL,
'Accept-Encoding': 'gzip',
}
self._opener.addheaders = list(zip(list(headers.keys()), list(headers.values())))
self._opener.timeout = 1
r = self._opener.open(url)
version = r.headers.get('X-Node-Protocol', None)
if version != settings.NODE_PROTOCOL:
logger.debug('version does not match local: %s remote %s', settings.NODE_PROTOCOL, version)
return False
c = r.read()
logger.debug('can connect to: %s (%s)', url, self.user.nickname)
return True
except:
logger.debug('can not connect to: %s (%s)', url, self.user.nickname)
pass
return False
def _go_online(self):
self.resolve()
u = self.user
if (u.peered or u.queued) and self.host:
logger.debug('go_online peered=%s queued=%s %s [%s]:%s (%s)', u.peered, u.queued, u.id, self.host, self.port, u.nickname)
try:
self.online = False
if self.can_connect():
logger.debug('connected to [%s]:%s', self.host, self.port)
self.online = True
if u.queued:
logger.debug('queued peering event pending=%s peered=%s', u.pending, u.peered)
if u.pending == 'sent':
self.peering('requestPeering')
elif u.pending == '' and u.peered:
self.peering('acceptPeering')
else:
#fixme, what about cancel/reject peering here?
self.peering('removePeering')
if self.online:
self.pullChanges()
except:
logger.debug('failed to connect to %s', self.user_id, exc_info=1)
self.online = False
else:
self.online = False
self.trigger_status()
def trigger_status(self):
trigger_event('status', {
'id': self.user_id,
'online': self.online
})
def pullChanges(self):
last = Changelog.query.filter_by(user_id=self.user_id).order_by('-revision').first()
from_revision = last.revision + 1 if last else 0
logger.debug('pullChanges %s from %s', self.user.name, from_revision)
changes = self.request('pullChanges', from_revision)
if not changes:
return False
return Changelog.apply_changes(self.user, changes)
def pushChanges(self, changes):
logger.debug('pushing changes to %s %s', self.user_id, changes)
if self.online:
try:
r = self.request('pushChanges', changes)
except:
self.online = False
self.trigger_status()
r = False
logger.debug('pushedChanges %s %s', r, self.user_id)
def peering(self, action):
u = self.user
if action in ('requestPeering', 'acceptPeering'):
r = self.request(action, settings.preferences['username'], u.info.get('message'))
else:
r = self.request(action, u.info.get('message'))
if r != None:
u.queued = False
if 'message' in u.info:
del u.info['message']
u.save()
else:
logger.debug('peering failed? %s %s', action, r)
if action in ('cancelPeering', 'rejectPeering', 'removePeering'):
self.online = False
else:
self.go_online()
trigger_event('peering.%s'%action.replace('Peering', ''), u.json())
return True
def download(self, item):
from item.models import Transfer
url = '%s/get/%s' % (self.url, item.id)
headers = {
'User-Agent': settings.USER_AGENT,
}
t1 = datetime.utcnow()
logger.debug('download %s', url)
self._opener.addheaders = zip(headers.keys(), headers.values())
try:
r = self._opener.open(url, timeout=self.TIMEOUT*2)
except:
logger.debug('openurl failed %s', url, exec_info=1)
return False
if r.getcode() == 200:
try:
if r.headers.get('content-encoding', None) == 'gzip':
content = gzip.GzipFile(fileobj=r).read()
else:
content = b''
ct = datetime.utcnow()
for chunk in iter(lambda: r.read(16*1024), b''):
content += chunk
if (datetime.utcnow() - ct).total_seconds() > 1:
ct = datetime.utcnow()
t = Transfer.get(item.id)
t.progress = len(content) / item.info['size']
t.save()
trigger_event('transfer', {
'id': item.id, 'progress': t.progress
})
'''
content = r.read()
'''
t2 = datetime.utcnow()
duration = (t2-t1).total_seconds()
if duration:
self.download_speed = len(content) / duration
logger.debug('SPEED %s', ox.format_bits(self.download_speed))
return item.save_file(content)
except:
logger.debug('download failed %s', url, exec_info=1)
return False
else:
logger.debug('FAILED %s', url)
return False
def download_upgrade(self, release):
for module in release['modules']:
path = os.path.join(settings.update_path, release['modules'][module]['name'])
if not os.path.exists(path):
url = '%s/oml/%s' % (self.url, release['modules'][module]['name'])
sha1 = release['modules'][module]['sha1']
headers = {
'User-Agent': settings.USER_AGENT,
}
self._opener.addheaders = list(zip(list(headers.keys()), list(headers.values())))
r = self._opener.open(url)
if r.getcode() == 200:
with open(path, 'w') as fd:
fd.write(r.read())
if (ox.sha1sum(path) != sha1):
logger.error('invalid update!')
os.unlink(path)
return False
else:
return False
class Nodes(Thread):
_nodes = {}
_local = None
def __init__(self):
self._q = Queue()
self._running = True
self._local = LocalNodes()
self._cleanup = PeriodicCallback(lambda: self.queue('cleanup'), 120000)
self._cleanup.start()
Thread.__init__(self)
self.daemon = True
self.start()
def cleanup(self):
if self._running:
self._local.cleanup()
def queue(self, *args):
self._q.put(list(args))
def is_online(self, id):
return id in self._nodes and self._nodes[id].online
def download(self, id, item):
return id in self._nodes and self._nodes[id].download(item)
def _call(self, target, action, *args):
if target == 'all':
nodes = list(self._nodes.values())
elif target == 'peered':
nodes = [n for n in list(self._nodes.values()) if n.user.peered]
elif target == 'online':
nodes = [n for n in list(self._nodes.values()) if n.online]
else:
nodes = [self._nodes[target]]
for node in nodes:
getattr(node, action)(*args)
def _add(self, user_id):
if user_id not in self._nodes:
from user.models import User
with db.session():
self._nodes[user_id] = Node(self, User.get_or_create(user_id))
else:
if not self._nodes[user_id].online:
self._nodes[user_id].ping()
def run(self):
while self._running:
args = self._q.get()
if args:
if args[0] == 'cleanup':
self.cleanup()
elif args[0] == 'add':
self._add(args[1])
else:
self._call(*args)
def join(self):
self._running = False
self._q.put(None)
for node in list(self._nodes.values()):
node.join()
self._local.join()
return Thread.join(self)