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cb_bin_client.py
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#!/usr/bin/env python3
"""
Binary memcached test client.
Copyright (c) 2007 Dustin Sallings <[email protected]>
"""
import array
import socket
import random
import struct
import ssl
from typing import Optional, Tuple, Iterable, List, Union
from couchbaseConstants import REQ_MAGIC_BYTE, RES_MAGIC_BYTE
from couchbaseConstants import REQ_PKT_FMT, RES_PKT_FMT, MIN_RECV_PACKET
from couchbaseConstants import SET_PKT_FMT, INCRDECR_RES_FMT
from couchbaseConstants import AUDIT_PKT_FMT
import couchbaseConstants
# Collections on the wire uses a varint encoding for the collection-ID
# A simple unsigned_leb128 encoded is used https://en.wikipedia.org/wiki/LEB128
# return a string with the binary encoding
def encodeCollectionId(cid: int) -> bytes:
output = array.array('B', [0])
while cid > 0:
byte = cid & 0xFF
cid >>= 7
# CID has more bits
if cid > 0:
# Set the 'continue' bit of this byte
byte |= 0x80
output[-1] = byte
output.append(0)
else:
output[-1] = byte
return output.tobytes()
def decodeCollectionID(key: bytes) -> Tuple[int, bytes]:
# A leb128 varint encodes the CID
data = array.array('B')
data.frombytes(key)
cid = data[0] & 0x7f
end = 1
if (data[0] & 0x80) == 0x80:
shift = 7
for end in range(1, len(data)):
cid |= ((data[end] & 0x7f) << shift)
if (data[end] & 0x80) == 0:
break
shift = shift + 7
end = end + 1
if end == len(data):
# We should of stopped for a stop byte, not the end of the buffer
raise ValueError("encoded key did not contain a stop byte")
return cid, key[end:]
def skipCollectionID(key: bytes) -> bytes:
_, k = decodeCollectionID(key)
return k
class MemcachedError(Exception):
"""Error raised when a command fails."""
def __init__(self, status: int, msg: str):
supermsg = f'Memcached error #{repr(status)}'
if msg:
supermsg += f': {msg}'
Exception.__init__(self, supermsg)
self.status=status
self.msg=msg
def __repr__(self):
return f'<MemcachedError #{self.status} ``{self.msg}''>'
class MemcachedClient(object):
"""Simple memcached client."""
vbucketId = 0
def __init__(self, host='127.0.0.1', port=11211, family=socket.AF_UNSPEC, use_ssl=False, verify=True, cacert=None):
self.host = host
self.port = port
for info in socket.getaddrinfo(self.host, self.port, family,
socket.SOCK_STREAM):
_family, socktype, proto, _, sockaddr = info
try:
sock = socket.socket(_family, socktype, proto)
sock.settimeout(10)
if use_ssl:
certReq = ssl.CERT_REQUIRED
if not verify:
certReq = ssl.CERT_NONE
sock = ssl.wrap_socket(sock, server_side=False, do_handshake_on_connect=True, cert_reqs=certReq,
ca_certs=cacert)
self.s = sock
self.s.connect_ex(sockaddr)
break
except socket.error as sock_error:
# If we get here socket objects will be close()d via
# garbage collection.
pass
else:
# Didn't break from the loop, re-raise the last error
raise sock_error
self.r=random.Random()
def close(self):
self.s.close()
def __del__(self):
self.close()
def _sendCmd(self, cmd: int, key: bytes, val: bytes, opaque: int, extraHeader: bytes = b'', cas: int = 0,
extraMeta: bytes = b''):
self._sendMsg(cmd, key, val, opaque, extraHeader=extraHeader, cas=cas,
vbucketId=self.vbucketId, extraMeta=extraMeta)
def _sendMsg(self, cmd: int, key: bytes, val: bytes, opaque: int, extraHeader: bytes = b'', cas: int = 0,
dtype: int = 0, vbucketId: int =0, extraMeta: bytes = b'',
fmt: str = REQ_PKT_FMT, magic: int = REQ_MAGIC_BYTE):
msg: bytes = struct.pack(fmt, magic, cmd, len(key), len(extraHeader), dtype, vbucketId,
len(key) + len(extraHeader) + len(val) + len(extraMeta), opaque, cas)
self.s.sendall(msg + extraHeader + key + val + extraMeta)
def _recvMsg(self) -> Tuple[int, int, int, int, int, int, bytes]:
response = b''
while len(response) < MIN_RECV_PACKET:
data = self.s.recv(MIN_RECV_PACKET - len(response))
if data == b'':
raise EOFError("Got empty data (remote died?).")
response += data
assert len(response) == MIN_RECV_PACKET
magic, cmd, keylen, extralen, dtype, errcode, remaining, opaque, cas=\
struct.unpack(RES_PKT_FMT, response)
rv = b''
while remaining > 0:
data = self.s.recv(remaining)
if data == b'':
raise EOFError("Got empty data (remote died?).")
rv += data
remaining -= len(data)
assert (magic in (RES_MAGIC_BYTE, REQ_MAGIC_BYTE)), f'Got magic: {magic}'
return cmd, errcode, opaque, cas, keylen, extralen, rv
def _handleKeyedResponse(self, myopaque: Union[int, None]) -> Tuple[int, int, int, int, int, bytes]:
cmd, errcode, opaque, cas, keylen, extralen, rv = self._recvMsg()
assert myopaque is None or opaque == myopaque, f'expected opaque {myopaque:x}, got {opaque:x}'
if errcode != 0:
raise MemcachedError(errcode, str(rv))
return cmd, opaque, cas, keylen, extralen, rv
def _handleSingleResponse(self, myopaque: Union[int, None]) -> Tuple[int, int, bytes]:
cmd, opaque, cas, keylen, extralen, data = self._handleKeyedResponse(myopaque)
return opaque, cas, data
def _doCmd(self, cmd: int, key: bytes, val: bytes, extraHeader: bytes = b'', cas: int = 0) -> Tuple[int, int, bytes]:
"""Send a command and await its response."""
opaque=self.r.randint(0, 2**32)
self._sendCmd(cmd, key, val, opaque, extraHeader, cas)
return self._handleSingleResponse(opaque)
def _mutate(self, cmd: int, key: bytes, exp: int, flags: int, cas: int, val: bytes) -> Tuple[int, int, bytes]:
return self._doCmd(cmd, key, val, struct.pack(SET_PKT_FMT, flags, exp),
cas)
def _cat(self, cmd: int, key: bytes, cas: int, val: bytes) -> Tuple[int, int, bytes]:
return self._doCmd(cmd, key, val, b'', cas)
def append(self, key: bytes, value: bytes, cas: int = 0) -> Tuple[int, int, bytes]:
return self._cat(couchbaseConstants.CMD_APPEND, key, cas, value)
def prepend(self, key: bytes, value: bytes, cas: int = 0) -> Tuple[int, int, bytes]:
return self._cat(couchbaseConstants.CMD_PREPEND, key, cas, value)
def __incrdecr(self, cmd, key, amt, init, exp):
something, cas, val=self._doCmd(cmd, key, b'',
struct.pack(couchbaseConstants.INCRDECR_PKT_FMT, amt, init, exp))
return struct.unpack(INCRDECR_RES_FMT, val)[0], cas
def incr(self, key, amt=1, init=0, exp=0):
"""Increment or create the named counter."""
return self.__incrdecr(couchbaseConstants.CMD_INCR, key, amt, init, exp)
def decr(self, key, amt=1, init=0, exp=0):
"""Decrement or create the named counter."""
return self.__incrdecr(couchbaseConstants.CMD_DECR, key, amt, init, exp)
def _doMetaCmd(self, cmd: int, key: bytes, value: bytes, cas: int, exp: int, flags: int, seqno: int,
remote_cas: int, options: Optional[int] = None, meta_len: Optional[int] = None) -> Tuple[int, int,
bytes]:
extra = b''
if options is None and meta_len is None:
extra = struct.pack('>IIQQ', flags, exp, seqno, remote_cas)
if options is not None and meta_len is not None:
extra = struct.pack('>IIQQIH', flags, exp, seqno, remote_cas, options, meta_len)
if options is not None and meta_len is None:
extra = struct.pack('>IIQQI', flags, exp, seqno, remote_cas, options)
if options is None and meta_len is not None:
extra = struct.pack('>IIQQH', flags, exp, seqno, remote_cas, meta_len)
return self._doCmd(cmd, key, value, extra, cas)
def _doRevCmd(self, cmd: int, key: bytes, exp: int, flags: int, value: bytes, rev: Tuple[int, bytes], cas: int = 0):
seqno, revid = rev
meta_data = struct.pack('>I', seqno) + revid
meta_type = couchbaseConstants.META_REVID
meta = (meta_type, meta_data)
return self._doMetaCmd(cmd, key, value, cas, exp, flags, seqno, 0) # pylint: disable=no-value-for-parameter
def set(self, key: bytes, exp: int, flags: int, val: bytes) -> Tuple[int, int, bytes]:
"""Set a value in the memcached server."""
return self._mutate(couchbaseConstants.CMD_SET, key, exp, flags, 0, val)
def setWithMeta(self, key: bytes, value: bytes, exp: int, flags: int, seqno: int, remote_cas: int,
options: Optional[int] = None, meta_len: Optional[int] = None) -> Tuple[int, int, bytes]:
"""Set a value and its meta data in the memcached server."""
return self._doMetaCmd(couchbaseConstants.CMD_SET_WITH_META,
key, value, 0, exp, flags, seqno, remote_cas, options, meta_len)
def setWithRev(self, key: bytes, exp: int, flags: int, value: bytes, rev: Tuple[int, bytes]):
"""Set a value and its revision in the memcached server."""
return self._doRevCmd(couchbaseConstants.CMD_SET_WITH_META,
key, exp, flags, value, rev)
def add(self, key: bytes, exp: int, flags: int, val: bytes):
"""Add a value in the memcached server iff it doesn't already exist."""
return self._mutate(couchbaseConstants.CMD_ADD, key, exp, flags, 0, val)
def addWithMeta(self, key: bytes, value: bytes, exp: int, flags: int, seqno: int, remote_cas: int):
return self._doMetaCmd(couchbaseConstants.CMD_ADD_WITH_META,
key, value, 0, exp, flags, seqno, remote_cas)
def addWithRev(self, key: bytes, exp: int, flags: int, value: bytes, rev: Tuple[int, bytes]):
return self._doRevCmd(couchbaseConstants.CMD_ADD_WITH_META,
key, exp, flags, value, rev)
def replace(self, key: bytes, exp: int, flags: int, val: bytes):
"""Replace a value in the memcached server iff it already exists."""
return self._mutate(couchbaseConstants.CMD_REPLACE, key, exp, flags, 0,
val)
def observe(self, key: bytes, vbucket: int) -> Tuple[int, int, int, bytes]:
"""Observe a key for persistence and replication."""
value = struct.pack('>HH', vbucket, len(key)) + key
opaque, cas, data = self._doCmd(couchbaseConstants.CMD_OBSERVE, b'', value)
rep_time = (cas & 0xFFFFFFFF)
persist_time = (cas >> 32) & 0xFFFFFFFF
persisted = struct.unpack('>B', bytes(data[4+len(key)]))[0]
return opaque, rep_time, persist_time, persisted
def __parseGet(self, data: bytes, klen: int = 0) -> Tuple[int, int, bytes]:
flags = struct.unpack(couchbaseConstants.GET_RES_FMT, data[:4])[0]
return flags, data[1], data[4 + klen:]
def get(self, key: bytes) -> Tuple[int, int, bytes]:
"""Get the value for a given key within the memcached server."""
_, _, data = self._doCmd(couchbaseConstants.CMD_GET, key, b'')
return self.__parseGet(data)
def getMeta(self, key: bytes) -> Tuple[int, int, int, int, int]:
"""Get the metadata for a given key within the memcached server."""
opaque, cas, data = self._doCmd(couchbaseConstants.CMD_GET_META, key, b'')
deleted = struct.unpack('>I', data[0:4])[0]
flags = struct.unpack('>I', data[4:8])[0]
exp = struct.unpack('>I', data[8:12])[0]
seqno = struct.unpack('>Q', data[12:20])[0]
return (deleted, flags, exp, seqno, cas)
def getl(self, key: bytes, exp: int = 15):
"""Get the value for a given key within the memcached server."""
_, _, data = self._doCmd(couchbaseConstants.CMD_GET_LOCKED, key, b'',
struct.pack(couchbaseConstants.GETL_PKT_FMT, exp))
return self.__parseGet(data)
def cas(self, key: bytes, exp: int, flags: int, oldVal: int, val: bytes):
"""CAS in a new value for the given key and comparison value."""
self._mutate(couchbaseConstants.CMD_SET, key, exp, flags, oldVal, val)
def touch(self, key: bytes, exp: int):
"""Touch a key in the memcached server."""
return self._doCmd(couchbaseConstants.CMD_TOUCH, key, b'', struct.pack(couchbaseConstants.TOUCH_PKT_FMT, exp))
def gat(self, key: bytes, exp: int):
"""Get the value for a given key and touch it within the memcached server."""
_, _, data = self._doCmd(couchbaseConstants.CMD_GAT, key, b'',
struct.pack(couchbaseConstants.GAT_PKT_FMT, exp))
return self.__parseGet(data)
def getr(self, key: bytes):
"""Get the value for a given key in a replica vbucket within the memcached server."""
_, _, data = self._doCmd(couchbaseConstants.CMD_GET_REPLICA, key, b'')
return self.__parseGet(data, len(key))
def version(self):
"""Get the value for a given key within the memcached server."""
return self._doCmd(couchbaseConstants.CMD_VERSION, b'', b'')
def verbose(self, level: int):
"""Set the verbosity level."""
return self._doCmd(couchbaseConstants.CMD_VERBOSE, b'', b'',
extraHeader=struct.pack(">I", level))
def sasl_mechanisms(self):
"""Get the supported SASL methods."""
return set(self._doCmd(couchbaseConstants.CMD_SASL_LIST_MECHS, b'', b'')[2].split(b' '))
def sasl_auth_start(self, mech: bytes, data: bytes) -> Tuple[int, int, bytes]:
"""Start a sasl auth session."""
return self._doCmd(couchbaseConstants.CMD_SASL_AUTH, mech, data)
def sasl_auth_plain(self, user: str, password: str, foruser: str = '') -> Tuple[int, int, bytes]:
"""Perform plain auth."""
return self.sasl_auth_start(b'PLAIN', b'\0'.join([foruser.encode(), user.encode(), password.encode()]))
def stop_persistence(self) -> Tuple[int, int, bytes]:
return self._doCmd(couchbaseConstants.CMD_STOP_PERSISTENCE, b'', b'')
def start_persistence(self) -> Tuple[int, int, bytes]:
return self._doCmd(couchbaseConstants.CMD_START_PERSISTENCE, b'', b'')
def set_param(self, key: bytes, val: bytes, type: int) -> Tuple[int, int, bytes]:
print("setting param:", key, val)
type_bytes: bytes = struct.pack(couchbaseConstants.SET_PARAM_FMT, type)
return self._doCmd(couchbaseConstants.CMD_SET_PARAM, key, val, type_bytes)
def set_vbucket_state(self, vbucket: int, stateName: str):
assert isinstance(vbucket, int)
self.vbucketId = vbucket
state = struct.pack(couchbaseConstants.VB_SET_PKT_FMT,
couchbaseConstants.VB_STATE_NAMES[stateName])
return self._doCmd(couchbaseConstants.CMD_SET_VBUCKET_STATE, b'', b'', state)
def get_vbucket_state(self, vbucket: int):
assert isinstance(vbucket, int)
self.vbucketId = vbucket
return self._doCmd(couchbaseConstants.CMD_GET_VBUCKET_STATE, b'', b'')
def delete_vbucket(self, vbucket: int):
assert isinstance(vbucket, int)
self.vbucketId = vbucket
return self._doCmd(couchbaseConstants.CMD_DELETE_VBUCKET, b'', b'')
def evict_key(self, key: bytes):
return self._doCmd(couchbaseConstants.CMD_EVICT_KEY, key, b'')
def getMulti(self, keys: Iterable[bytes]):
"""Get values for any available keys in the given iterable.
Returns a dict of matched keys to their values."""
opaqued=dict(enumerate(keys))
terminal=len(opaqued)+10
# Send all of the keys in quiet
for k,v in opaqued.items():
self._sendCmd(couchbaseConstants.CMD_GETQ, v, b'', k)
self._sendCmd(couchbaseConstants.CMD_NOOP, b'', b'', terminal)
# Handle the response
rv={}
done=False
while not done:
opaque, cas, data=self._handleSingleResponse(None) # type: ignore
if opaque != terminal:
rv[opaqued[opaque]]=self.__parseGet((opaque, cas, data)) # type: ignore
else:
done=True
return rv
def setMulti(self, exp: int, flags: int, items):
"""Multi-set (using setq).
Give me (key, value) pairs."""
# If this is a dict, convert it to a pair generator
if hasattr(items, 'iteritems'):
items = items.items()
opaqued=dict(enumerate(items))
terminal=len(opaqued)+10
extra=struct.pack(SET_PKT_FMT, flags, exp)
# Send all of the keys in quiet
for opaque,kv in opaqued.items():
self._sendCmd(couchbaseConstants.CMD_SETQ, kv[0], kv[1], opaque, extra)
self._sendCmd(couchbaseConstants.CMD_NOOP, b'', b'', terminal)
# Handle the response
failed = []
done=False
while not done:
try:
opaque, cas, data = self._handleSingleResponse(None) # type: ignore
done = opaque == terminal
except MemcachedError as e:
failed.append(e)
return failed
def delMulti(self, items):
"""Multi-delete (using delq).
Give me a collection of keys."""
opaqued = dict(enumerate(items))
terminal = len(opaqued)+10
extra = b''
# Send all of the keys in quiet
for opaque, k in opaqued.items():
self._sendCmd(couchbaseConstants.CMD_DELETEQ, k, b'', opaque, extra)
self._sendCmd(couchbaseConstants.CMD_NOOP, b'', b'', terminal)
# Handle the response
failed = []
done=False
while not done:
try:
opaque, cas, data = self._handleSingleResponse(None)
done = opaque == terminal
except MemcachedError as e:
failed.append(e)
return failed
def stats(self, sub: bytes = b''):
"""Get stats."""
opaque=self.r.randint(0, 2**32)
self._sendCmd(couchbaseConstants.CMD_STAT, sub, b'', opaque)
done = False
rv = {}
while not done:
cmd, opaque, cas, klen, extralen, data = self._handleKeyedResponse(None)
if klen:
rv[data[0:klen]] = data[klen:]
else:
done = True
return rv
def noop(self) -> Tuple[int, int, bytes]:
"""Send a noop command."""
return self._doCmd(couchbaseConstants.CMD_NOOP, b'', b'')
def helo(self, features: List[int]) -> Tuple[int, int, Tuple[int, ...]]:
"""Send a hello command for feature checking"""
r1, r2, value = self._doCmd(couchbaseConstants.CMD_HELLO, b'', struct.pack('>' + ('H' * len(features)), *features))
# divide length of value by 2 to find out how many 2-byte elements exist
return r1, r2, struct.unpack('>' + ('H' * int(len(value)/2)) , value)
def delete(self, key: bytes, cas: int = 0) -> Tuple[int, int, bytes]:
"""Delete the value for a given key within the memcached server."""
return self._doCmd(couchbaseConstants.CMD_DELETE, key, b'', b'', cas)
def flush(self, timebomb: int = 0) -> Tuple[int, int, bytes]:
"""Flush all storage in a memcached instance."""
return self._doCmd(couchbaseConstants.CMD_FLUSH, b'', b'',
struct.pack(couchbaseConstants.FLUSH_PKT_FMT, timebomb))
def bucket_select(self, name: bytes) -> Tuple[int, int, bytes]:
return self._doCmd(couchbaseConstants.CMD_SELECT_BUCKET, name, b'')
def restore_file(self, filename):
"""Initiate restore of a given file."""
return self._doCmd(couchbaseConstants.CMD_RESTORE_FILE, filename, b'', b'', 0)
def restore_complete(self):
"""Notify the server that we're done restoring."""
return self._doCmd(couchbaseConstants.CMD_RESTORE_COMPLETE, b'', b'', b'', 0)
def deregister_tap_client(self, tap_name):
"""Deregister the TAP client with a given name."""
return self._doCmd(couchbaseConstants.CMD_DEREGISTER_TAP_CLIENT, tap_name, b'', b'', 0)
def reset_replication_chain(self):
"""Reset the replication chain."""
return self._doCmd(couchbaseConstants.CMD_RESET_REPLICATION_CHAIN, b'', b'', b'', 0)
def audit(self, auditid, event):
#print couchbaseConstants.CMD_AUDIT_PUT, auditid, event
#return self._doCmd(couchbaseConstants.CMD_AUDIT_PUT, '', event, \
# struct.pack(AUDIT_PKT_FMT, auditid))
return 0