BackupPC_archive_host_B2/BackupPC_archiveHost_s3
2011-09-23 21:09:41 -04:00

397 lines
15 KiB
Python
Executable file

#!/usr/bin/python -W ignore::DeprecationWarning
# A BackupPC script to archive a host's files to Amazon S3.
#
# Point $Conf{ArchiveClientCmd} at me.
# Requires python-boto
#
# Usage: BackupPC_archiveHost tarCreatePath splitPath parPath host bkupNum \
# compPath fileExt splitSize outLoc parFile share
#
# Create secrets.py such that it has:
# accesskey = 'amazon aws access key'
# sharedkey = 'amazon aws shared key'
# gpgsymmetrickey = 'gpg symmetric key -- make it good, but do not lose it'
import glob
import hashlib
import os
import socket
import sys
import time
from multiprocessing import Process, Queue, cpu_count
from subprocess import *
from boto.s3.connection import S3Connection
from boto.s3.key import Key
import boto.exception
import logging
import logging.handlers
import secrets
logger = logging.getLogger(__name__)
sysloghandler = logging.handlers.SysLogHandler('/dev/log',
facility=logging.handlers.SysLogHandler.LOG_DAEMON)
syslogformatter = logging.Formatter('%(filename)s: %(levelname)s: %(message)s')
sysloghandler.setFormatter(syslogformatter)
logger.addHandler(sysloghandler)
consolehandler = logging.StreamHandler(sys.stdout)
consoleformatter = logging.Formatter('%(asctime)s: %(levelname)s: %(message)s')
consolehandler.setFormatter(consoleformatter)
logger.addHandler(consolehandler)
logger.setLevel(logging.DEBUG)
class VerifyError(Exception):
pass
def is_exe(fpath):
return os.path.exists(fpath) and os.access(fpath, os.X_OK)
def encrypt_file(filename, key, compress='/bin/cat'):
compressmap = {'cat': 'none', 'gzip': 'ZLIB', 'bzip2': 'BZIP2'}
if os.path.basename(compress) in compressmap.keys():
compress_algo = compressmap[os.path.basename(compress)]
else:
compress_algo = 'none'
cmd = ['/usr/bin/gpg', '--batch', '--no-tty']
cmd.extend(['--compress-algo', compress_algo])
cmd.extend(['--output', '%s.gpg' % filename])
cmd.extend(['--passphrase-fd', '0'])
cmd.extend(['--symmetric', filename])
if is_exe(cmd[0]):
logger.debug('encrypt_file: encrypting %s (compression: %s)' % (filename, compress_algo))
else:
raise RuntimeError('%s is not an executable file!' % cmd[0])
proc = Popen(cmd, preexec_fn=lambda : os.nice(10), stdin=PIPE, stdout=PIPE)
proc.communicate(key)
if os.path.exists(filename + '.gpg'):
oldfilesize = os.path.getsize(filename)
newfilesize = os.path.getsize(filename + '.gpg')
compressed = ((oldfilesize - newfilesize) / float(oldfilesize)) * 100
logger.debug('encrypt_file: %s %s by %.2f%% (%i -> %i bytes)' % (filename, 'shrunk' if oldfilesize>newfilesize else 'grew', compressed, oldfilesize, newfilesize))
os.unlink(filename)
return filename + '.gpg'
else:
raise RuntimeError('output file does not exist: %s.gpg' % filename)
def open_s3(accesskey, sharedkey, host):
conn = S3Connection(accesskey, sharedkey, is_secure=True)
mybucketname = (accesskey + '-bkup-' + host).lower()
try:
bucket = conn.get_bucket(mybucketname)
except boto.exception.S3ResponseError:
logger.info('open_s3: creating new bucket %s' % mybucketname)
bucket = conn.create_bucket(mybucketname)
bucket.set_acl('private')
return bucket
def handle_progress(transmitted, pending):
logger.debug("send_file: %i of %i bytes transmitted (%.2f%%)", transmitted, pending, (transmitted/float(pending))*100)
def verify_file(bucket, filename):
"Returns True if the file size and md5sum match, False otherwise"
basefilename = os.path.basename(filename)
key = bucket.get_key(basefilename)
stat = os.stat(filename)
if key:
if key.size == stat[6]:
fp = open(filename)
local_md5 = hashlib.md5(fp.read())
fp.close()
logger.debug("verify_file: %s: local md5 %s, etag %s", filename, local_md5.hexdigest(), key.etag)
if '"%s"' % local_md5.hexdigest() == key.etag:
return True
return False
def send_file(bucket, filename):
basefilename = os.path.basename(filename)
k = Key(bucket)
k.key = basefilename
if k.exists():
if verify_file(bucket, filename):
logger.warning("send_file: %s already exists and is identical, not overwriting", basefilename)
return k
logger.warning("send_file: %s already exists on S3, overwriting", basefilename)
k.set_contents_from_filename(filename, cb=handle_progress, reduced_redundancy=True)
logger.debug("send_file: %s sent, verifying fidelity", filename)
if not verify_file(bucket, filename):
raise VerifyError("verify failed")
return k
def encryption_worker(in_q, out_q):
"Encrypts things from the in_q, puts them in the out_q"
start_time = time.time()
counter = 0
for filename, gpgkey, comppath in iter(in_q.get, 'STOP'):
counter += 1
cryptstart_time = time.time()
logger.info("encryption_worker: encrypting %s", filename)
result = encrypt_file(filename, gpgkey, comppath)
out_q.put(result)
logger.debug("encryption_worker: encrypted %s in %i seconds", filename, time.time()-cryptstart_time)
logger.debug("encryption_worker: queue is empty, terminating after %i items in %i seconds", counter, time.time()-start_time)
time.sleep(5) # settle
def sending_worker(in_q, out_q, accesskey, sharedkey, host):
"Sends things from the in_q using the send_file method"
start_time = time.time()
counter = 0
for filename in iter(in_q.get, 'STOP'):
sending_start = time.time()
counter += 1
retry_count = 0
max_retries = 10
done = False
while retry_count <= max_retries and not done:
try:
logger.info("sending_worker: sending %s", filename)
bucket = open_s3(accesskey, sharedkey, host)
key = send_file(bucket, filename)
key.set_acl('private')
key.close()
done = True
except (boto.exception.S3ResponseError, socket.error, VerifyError), e:
retry_count += 1
sleeptime = 2**retry_count
logger.error('sending_worker: exception %s, retrying in %i seconds (%i/%i)', e, sleeptime, retry_count, max_retries)
time.sleep(sleeptime)
if not done:
# trip out
logger.error('sending_worker: could not upload %s in %i retries', filename, retry_count)
else:
size = os.path.getsize(filename)
sending_seconds = time.time() - sending_start
bytespersecond = size / sending_seconds
logger.debug("sending_worker: sent %s in %i seconds at %i bytes/second.", filename, sending_seconds, bytespersecond)
out_q.put(filename)
logger.debug("sending_worker: queue is empty, terminating after %i items in %i seconds", counter, time.time() - start_time)
time.sleep(5) # settle
def unlink_worker(in_q, accesskey, sharedkey, host):
start_time = time.time()
counter = 0
bucket = open_s3(accesskey, sharedkey, host)
for filename in iter(in_q.get, 'STOP'):
counter += 1
retry_count = 0
max_retries = 3
done = False
while retry_count <= max_retries and not done:
if verify_file(bucket, filename):
logger.debug("unlink_worker: deleting %s", filename)
os.unlink(filename)
done = True
else:
retry_count += 1
sleeptime = 2**retry_count
logger.error("unlink_worker: verify_file on %s returned false, retrying in %i seconds (%i/%i)", filename, sleeptime, retry_count, max_retries)
time.sleep(sleeptime)
if not done:
logger.error("unlink_worker: could not verify remote %s in %i retries", filename, retry_count)
logger.debug("unlink_worker: queue is empty, terminating after %i items in %i seconds", counter, time.time() - start_time)
time.sleep(5) # settle
if __name__ == '__main__':
# Read in arguments, verify that they match the BackupPC standard exactly
if len(sys.argv) != 12:
sys.stderr.write("Usage: %s tarCreatePath splitPath parPath host bkupNum compPath fileExt splitSize outLoc parFile share\n" % sys.argv[0])
sys.exit(1)
else:
tarCreate = sys.argv[1]
splitPath = sys.argv[2]
parPath = sys.argv[3]
host = sys.argv[4]
bkupNum = int(sys.argv[5])
compPath = sys.argv[6]
fileExt = sys.argv[7]
splitSize = int(sys.argv[8])
outLoc = sys.argv[9]
parfile = sys.argv[10]
share = sys.argv[11]
for i in [tarCreate, compPath, splitPath, parPath]:
if i is not '' and not is_exe(i):
sys.stderr.write('Error: %s is not an executable program\n' % i)
sys.exit(1)
beginning = time.time()
# Create queues for workers
gpg_queue = Queue()
send_queue = Queue()
unlink_queue = Queue()
queues = {
'gpg_queue': gpg_queue,
'send_queue': send_queue,
'unlink_queue': unlink_queue,
}
# Is there already evidence of this having been done before?
if glob.glob('%s/%s.*.tar.*' % (outLoc, host)):
logger.warning('main: finishing previous incomplete run')
somefile = os.path.basename(glob.glob('%s/%s.*.tar.*' % (outLoc, host))[0])
keyparts = somefile.split('.')
encrypted = split = tarred = final = False
if keyparts[-1] == 'gpg':
keyparts.pop()
if keyparts[-1] != 'tar' and len(keyparts[-1]) is 2:
keyparts.pop()
if keyparts[-1] == 'tar':
keyparts.pop()
bkupNum = int(keyparts.pop())
filehead = '%s/%s.%i.tar.' % (outLoc, host, bkupNum)
fileglob = filehead + '*'
mesg = "Continuing upload for host %s, backup #%i" % (host, bkupNum)
if splitSize > 0 and is_exe(splitPath):
mesg += ', split into %i byte chunks' % splitSize
if secrets.gpgsymmetrickey:
mesg += ', encrypted with secret key'
logger.info("main: %s", mesg)
else:
mesg = "Writing archive for host %s, backup #%i" % (host, bkupNum)
tarcmd = [tarCreate, '-t']
tarcmd.extend(['-h', host])
tarcmd.extend(['-n', str(bkupNum)])
tarcmd.extend(['-s', share])
tarcmd.extend(['.'])
splitcmd = None
outfile = '%s/%s.%i.tar' % (outLoc, host, bkupNum)
if splitSize > 0 and is_exe(splitPath):
filehead = outfile + '.'
fileglob = filehead + '*'
splitcmd = [splitPath, '-b', str(splitSize), '-', filehead]
mesg += ', split into %i byte chunks' % splitSize
else:
fileglob = outfile
filehead = fileglob + '.'
if secrets.gpgsymmetrickey:
mesg += ', encrypted with secret key'
logger.info("main: %s", mesg)
logger.debug("main: executing tarcmd: %s > %s", ' '.join(tarcmd), outfile)
tarfp = open(outfile, 'wb')
proc = Popen(tarcmd, preexec_fn=lambda : os.nice(10), stdout=tarfp)
proc.communicate()
tarfp.close()
if splitcmd:
logger.debug("main: executing splitcmd: %s", ' '.join(splitcmd))
tarfp = open(outfile, 'rb')
proc = Popen(splitcmd, preexec_fn=lambda : os.nice(10), stdin=tarfp)
proc.communicate()
tarfp.close()
os.unlink(outfile)
logger.info("main: dumped %i files from %s #%i" % (len(glob.glob(fileglob)), host, bkupNum))
# Pre-run to check for artifacts
for i in glob.glob(fileglob):
if not i.endswith('.gpg') and os.path.exists(i + '.gpg'):
logger.warning("main: orphaned GPG file being deleted: %s", i + '.gpg')
os.unlink(i + '.gpg')
# Run again to send files to the relevant queue
for i in sorted(glob.glob(fileglob)):
if secrets.gpgsymmetrickey and not i.endswith('.gpg'):
# A tar file, unencrypted, needs encrypted.
logger.debug("main: adding %s to gpg_queue", i)
gpg_queue.put([i, secrets.gpgsymmetrickey, compPath])
else:
# either encryption is off, or the file is already encrypted
logger.debug("main: adding %s to send_queue", i)
send_queue.put(i)
# Start some handlers, wait until everything is done
try:
process_count = cpu_count()
except NotImplementedError:
process_count = 1
procs = []
for i in range(process_count):
p = Process(name="encryption_worker_%i" % i, target=encryption_worker, args=(gpg_queue, send_queue,))
p.start()
procs.append(p)
send_p = Process(name="send_worker", target=sending_worker, args=(send_queue, unlink_queue, secrets.accesskey, secrets.sharedkey, host))
send_p.start()
procs.append(send_p)
unlink_p = Process(name="unlink_worker", target=unlink_worker, args=(unlink_queue, secrets.accesskey, secrets.sharedkey, host))
unlink_p.start()
procs.append(unlink_p)
send_queue_closed = False
unlink_queue_closed = False
# Put STOP command(s) at the end of the GPG queue.
gpg_queue_closed = True
for i in range(process_count):
gpg_queue.put('STOP')
for i in procs:
# wait for each process to terminate in turn
i.join()
logger.debug("main: process terminated: %s", i.name)
# count how many crypto processes are still running
crypto_running = 0
for j in procs:
if j.name.startswith("encryption_worker") and j.is_alive():
crypto_running += 1
if crypto_running == 0 and not send_queue_closed:
# crypto is done, close up the send queue
logger.debug("main: queuing final file")
finalfile = '%sCOMPLETE' % filehead
fp = open(finalfile, 'w')
fp.write('%s %s "%s"' % (beginning, time.time(), mesg))
fp.close()
send_queue.put(finalfile)
logger.debug("main: queuing stop sentinel for send_queue")
send_queue.put('STOP')
send_queue_closed = True
if not send_p.is_alive() and not unlink_queue_closed:
# sending is done, close up the unlink queue
logger.debug("main: queuing stop sentinel for unlink_queue")
unlink_queue.put('STOP')
unlink_queue_closed = True
for qname, q in queues.items():
time.sleep(5) # settle
if not q.empty():
logger.critical("main: queue %s not empty!", qname)
raise Exception("queue not empty: %s" % qname)
else:
logger.debug("main: queue %s is empty", qname)
logger.info("main: completed run after %i seconds", (time.time() - beginning))