#!/usr/bin/python3
import argparse
import base64
import configparser
import hashlib
import http.client
import os
import re
import ssl
import subprocess
import sys
import textwrap
import xml.etree.ElementTree as etree
def die(msg):
newmsg = ""
for line in msg.splitlines():
newmsg += textwrap.fill(line, 72) + '\n'
msg = ""
for line in newmsg.splitlines():
msg += 'error: ' + line + '\n'
sys.exit(msg.rstrip('\n'))
def die_atnode(msg, node):
if debug:
msg += '\n\n'
msg += 'The error occurred while processing the following XML node:\n'
msg += etree.tostring(node).decode('utf-8')
die(msg)
def calcurse_wipe():
if verbose:
print('Removing all local calcurse objects...')
if dry_run:
return
subprocess.call([calcurse, '-F', '--filter-hash=XXX'])
def calcurse_import(icaldata):
p = subprocess.Popen([calcurse, '-i', '-', '--list-imported', '-q'],
stdin=subprocess.PIPE, stdout=subprocess.PIPE)
return p.communicate(icaldata.encode('utf-8'))[0].decode('utf-8').rstrip()
def calcurse_export(objhash):
p = subprocess.Popen([calcurse, '-x', 'ical', '--export-uid',
'--filter-hash=' + objhash], stdout=subprocess.PIPE)
return p.communicate()[0].decode('utf-8').rstrip()
def calcurse_hashset():
p = subprocess.Popen([calcurse, '-G'], stdout=subprocess.PIPE)
out = p.communicate()[0]
hashes = set()
for line in out.split(b'\n'):
if not line:
continue
sha1 = hashlib.new('sha1')
sha1.update(line)
hashes.add(sha1.hexdigest())
return hashes
def calcurse_remove(objhash):
subprocess.call([calcurse, '-F', '--filter-hash=!' + objhash])
def calcurse_version():
p = subprocess.Popen([calcurse, '--version'], stdout=subprocess.PIPE)
m = re.match('Calcurse ([0-9]+)\.([0-9]+)\.([0-9]+)(?:-([0-9]+)-)?',
p.communicate()[0].decode('utf-8'))
if not m:
return None
return tuple(map(int, m.groups(0)))
def get_auth_headers():
if not username or not password:
return {}
user_password = ('%s:%s' % (username, password)).encode('ascii')
user_password = base64.b64encode(user_password).decode('ascii')
headers = { 'Authorization' : 'Basic %s' % user_password }
return headers
def remote_query(cmd, path, additional_headers, body):
headers = custom_headers.copy()
headers.update(get_auth_headers())
if cmd == 'PUT':
headers['Content-Type'] = 'text/calendar; charset=utf-8'
else:
headers['Content-Type'] = 'application/xml; charset=utf-8'
headers.update(additional_headers)
if debug:
print("> %s %s" % (cmd, path))
print("> Headers: " + repr(headers))
if body:
for line in body.splitlines():
print("> " + line)
print()
conn.request(cmd, path, headers=headers, body=body)
resp = conn.getresponse()
if not resp:
return (None, None)
headers = resp.getheaders()
body = resp.read().decode('utf-8')
if debug:
print("< Headers: " + repr(headers))
for line in body.splitlines():
print("< " + line)
print()
if resp.status - (resp.status % 100) != 200:
die(("The server at %s replied with HTTP status code %d (%s) " +
"while trying to access %s.") %
(hostname, resp.status, resp.reason, path))
return (headers, body)
def get_hrefmap(conn, hrefs=[]):
if len(hrefs) > 0:
body = '' +\
'' +\
''
for href in hrefs:
body += '{}'.format(href)
body += ''
else:
body = '' +\
'' +\
'' +\
'' +\
''
headers, body = remote_query("REPORT", path, {}, body)
if not headers:
return {}
root = etree.fromstring(body)
hrefmap = {}
for node in root.findall(".//D:response", namespaces=nsmap):
etagnode = node.find("./D:propstat/D:prop/D:getetag", namespaces=nsmap)
if etagnode is None:
die_atnode('Missing ETag.', node)
etag = etagnode.text.strip('"')
hrefnode = node.find("./D:href", namespaces=nsmap)
if hrefnode is None:
die_atnode('Missing href.', node)
href = hrefnode.text
hrefmap[etag] = href
return hrefmap
def remote_wipe(conn):
if verbose:
print('Removing all objects from the CalDAV server...')
if dry_run:
return
remote_query("DELETE", path, {}, None)
def get_syncdb(fn):
if not os.path.exists(fn):
return {}
if verbose:
print('Loading synchronization database from ' + fn + '...')
syncdb = {}
with open(fn, 'r') as f:
for line in f.readlines():
etag, objhash = line.rstrip().split(' ')
syncdb[etag] = objhash
return syncdb
def save_syncdb(fn, syncdb):
if verbose:
print('Saving synchronization database to ' + fn + '...')
if dry_run:
return
with open(fn, 'w') as f:
for etag, objhash in syncdb.items():
print("%s %s" % (etag, objhash), file=f)
def push_object(conn, objhash):
href = path + objhash + ".ics"
body = calcurse_export(objhash)
headers, body = remote_query("PUT", href, {}, body)
if not headers:
return None
etag = None
headerdict = dict((key.lower(), value) for key, value in headers)
if 'etag' in headerdict:
etag = headerdict['etag']
while not etag:
hrefmap = get_hrefmap(conn, [href])
if len(hrefmap.keys()) > 0:
etag = next(iter(hrefmap.keys()))
etag = etag.strip('"')
return etag
def remove_remote_object(conn, etag, href):
headers = { 'If-Match' : '"' + etag + '"' }
remote_query("DELETE", href, headers, None)
def push_objects(conn, syncdb, hrefmap):
objhashes = calcurse_hashset()
new = objhashes - set(syncdb.values())
gone = set(syncdb.values()) - objhashes
added = deleted = 0
# Copy new objects to the server.
for objhash in new:
if verbose:
print("Pushing new object %s to the server." % (objhash))
if dry_run:
continue
etag = push_object(conn, objhash)
syncdb[etag] = objhash
added += 1
# Remove locally deleted objects from the server.
for objhash in gone:
deletags = []
for key, value in syncdb.items():
if value == objhash:
deletags.append(key)
for etag in deletags:
if not etag in hrefmap:
continue
href = hrefmap[etag]
if verbose:
print("Removing remote object %s (%s)." % (etag, href))
if dry_run:
continue
remove_remote_object(conn, etag, href)
syncdb.pop(etag, None)
deleted += 1
return (added, deleted)
def pull_objects(conn, syncdb, hrefmap):
missing = set(hrefmap.keys()) - set(syncdb.keys())
orphan = set(syncdb.keys()) - set(hrefmap.keys())
# Download and import new objects from the server.
body = '' +\
'' +\
''
for etag in missing:
body += '%s' % (hrefmap[etag])
body += ''
headers, body = remote_query("REPORT", path, {}, body)
root = etree.fromstring(body)
added = deleted = 0
for node in root.findall(".//D:prop", namespaces=nsmap):
etagnode = node.find("./D:getetag", namespaces=nsmap)
if etagnode is None:
die_atnode('Missing ETag.', node)
etag = etagnode.text.strip('"')
cdatanode = node.find("./C:calendar-data", namespaces=nsmap)
if cdatanode is None:
die_atnode('Missing calendar data.', node)
cdata = cdatanode.text
if verbose:
print("Importing new object %s." % (etag))
if dry_run:
continue
objhash = calcurse_import(cdata)
syncdb[etag] = objhash
added += 1
# Delete objects that no longer exist on the server.
for etag in orphan:
objhash = syncdb[etag]
if verbose:
print("Removing local object %s." % (objhash))
if dry_run:
continue
calcurse_remove(objhash)
syncdb.pop(etag, None)
deleted += 1
return (added, deleted)
# Initialize the XML namespace map.
nsmap = { "D": "DAV:", "C": "urn:ietf:params:xml:ns:caldav" }
# Initialize default values.
configfn = os.path.expanduser("~/.calcurse/caldav/config")
lockfn = os.path.expanduser("~/.calcurse/caldav/lock")
syncdbfn = os.path.expanduser("~/.calcurse/caldav/sync.db")
# Parse command line arguments.
parser = argparse.ArgumentParser('calcurse-caldav')
parser.add_argument('--init', action='store', dest='init', default=None,
choices=['keep-remote', 'keep-local', 'two-way'],
help='initialize the sync database')
parser.add_argument('--config', action='store', dest='configfn',
default=configfn,
help='path to the calcurse-caldav configuration')
parser.add_argument('--lockfile', action='store', dest='lockfn',
default=lockfn,
help='path to the calcurse-caldav lock file')
parser.add_argument('--syncdb', action='store', dest='syncdbfn',
default=syncdbfn,
help='path to the calcurse-caldav sync DB')
parser.add_argument('-v', '--verbose', action='store_true', dest='verbose',
default=False,
help='print status messages to stdout')
parser.add_argument('--debug', action='store_true', dest='debug',
default=False, help='print debug messages to stdout')
args = parser.parse_args()
init = args.init is not None
configfn = args.configfn
lockfn = args.lockfn
syncdbfn = args.syncdbfn
verbose = args.verbose
debug = args.debug
# Read configuration.
config = configparser.RawConfigParser()
if verbose:
print('Loading configuration from ' + configfn + '...')
try:
config.readfp(open(configfn))
except FileNotFoundError as e:
die('Configuration file not found: %s' % (configfn))
hostname = config.get('General', 'HostName')
path = '/' + config.get('General', 'Path').strip('/') + '/'
if config.has_option('General', 'InsecureSSL'):
insecure_ssl = config.getboolean('General', 'InsecureSSL')
else:
insecure_ssl = False
if config.has_option('General', 'Binary'):
calcurse = config.get('General', 'Binary')
else:
calcurse = 'calcurse'
if config.has_option('General', 'DryRun'):
dry_run = config.getboolean('General', 'DryRun')
else:
dry_run = True
if not verbose and config.has_option('General', 'Verbose'):
verbose = config.getboolean('General', 'Verbose')
if not debug and config.has_option('General', 'Debug'):
debug = config.getboolean('General', 'Debug')
if config.has_option('Auth', 'UserName'):
username = config.get('Auth', 'UserName')
else:
username = None
if config.has_option('Auth', 'Password'):
password = config.get('Auth', 'Password')
else:
password = None
if config.has_section('CustomHeaders'):
custom_headers = dict(config.items('CustomHeaders'))
else:
custom_headers = {}
# Show disclaimer when performing a dry run.
if dry_run:
print('Dry run. Nothing is actually imported/exported.')
print('Edit the configuration file and add "DryRun = No" to the [General] section')
print('to enable synchronization.')
# Check whether the specified calcurse binary is executable and compatible.
ver = calcurse_version()
if ver is None:
die('Invalid calcurse binary. Make sure that the file specified in ' +
'the configuration is a valid and up-to-date calcurse binary.')
elif ver < (4, 0, 0, 73):
die('Incompatible calcurse binary detected. Version >=4.1.0 is required ' +
'to synchronize with CalDAV servers.')
# Create lock file.
if os.path.exists(lockfn):
die('Leftover lock file detected. If there is no other synchronization ' +
'instance running, please remove the lock file manually and try ' +
'again.')
open(lockfn, 'w')
try:
# Connect to the server via HTTPs.
if verbose:
print('Connecting to ' + hostname + '...')
if insecure_ssl:
try:
context = ssl._create_unverified_context()
conn = http.client.HTTPSConnection(hostname, context=context)
except AttributeError:
# Python versions prior to 3.4.3 do not support
# ssl._create_unverified_context(). However, these versions do not
# seem to verify certificates by default so we can simply fall back
# to http.client.HTTPSConnection().
conn = http.client.HTTPSConnection(hostname)
else:
conn = http.client.HTTPSConnection(hostname)
if init:
# In initialization mode, start with an empty synchronization database.
if (args.init == 'keep-remote'):
calcurse_wipe()
elif (args.init == 'keep-local'):
remote_wipe(conn)
syncdb = {}
else:
# Read the synchronization database.
syncdb = get_syncdb(syncdbfn)
if not syncdb:
die('Sync database not found or empty. Please initialize the ' +
'database first.\n\nSupported initialization modes are:\n' +
' --init=keep-remote Remove all local calcurse items and import remote objects\n' +
' --init=keep-local Remove all remote objects and push local calcurse items\n' +
' --init=two-way Copy local objects to the CalDAV server and vice versa')
# Query the server and build a dictionary that maps ETags to paths on the
# server.
hrefmap = get_hrefmap(conn)
# Retrieve new objects from the server, delete local items that no longer
# exist on the server.
local_new, local_del = pull_objects(conn, syncdb, hrefmap)
# Push new objects to the server, remove items from the server if they no
# longer exist locally.
remote_new, remote_del = push_objects(conn, syncdb, hrefmap)
# Write the synchronization database.
save_syncdb(syncdbfn, syncdb)
# Close the HTTPs connection.
conn.close()
finally:
# Remove lock file.
os.remove(lockfn)
# Print a summary to stdout.
print("%d items imported, %d items removed locally." % (local_new, local_del))
print("%d items exported, %d items removed from the server." %
(remote_new, remote_del))