예제 #1
0
def _delete(self, key):
    """
    Deletes a key/value pair from memcache.

    :param key: key to be deleted
    """
    orig_key = key
    key = memcached.md5hash(key)
    for (server, fp, sock) in self._get_conns(key):
        with api.ezipkin_client_span(
                api.default_service_name(),
                span_name='delete',
                binary_annotations={
                    "memcached.key": orig_key,
                },
        ) as zipkin_span:
            add_remote_endpoint(zipkin_span, server)
            try:
                with Timeout(self._io_timeout):
                    sock.sendall(b'delete ' + key + b'\r\n')
                    # Wait for the delete to complete
                    fp.readline()
                    self._return_conn(server, fp, sock)
                    return
            except (Exception, Timeout) as e:
                self._exception_occurred(server, e, sock=sock, fp=fp)
예제 #2
0
파일: http.py 프로젝트: tipabu/swift-zipkin
def _patched_endheaders(self):
    # self is a HTTPConnection
    if api.has_default_tracer():
        span_ctx = api.ezipkin_client_span(
            api.default_service_name(),
            span_name=self._method,
            binary_annotations={'http.uri': self.path},
        )
        span_ctx.start()

        remote_service_name = 'unknown'
        try:
            path_bits = self.path.split('/', 5)[1:]
            if path_bits[0].startswith('d') and path_bits[0][1:].isdigit():
                if self.port in (6002, 6005):
                    remote_service_name = 'swift-account-server'
                elif self.port in (6001, 6004):
                    remote_service_name = 'swift-container-server'
                else:
                    remote_service_name = 'swift-object-server'
        except Exception:
            pass
        span_ctx.add_remote_endpoint(host=self.host,
                                     port=self.port,
                                     service_name=remote_service_name)
        b3_headers = span_ctx.create_http_headers_for_my_span()
        for h, v in b3_headers.items():
            self.putheader(h, v)

    __org_endheaders__(self)

    if api.has_default_tracer():
        span_ctx._fd_key = self.sock.fileno()
        _span_contexts_by_fd[span_ctx._fd_key] = [span_ctx, True]
예제 #3
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def _get_multi(self, keys, server_key):
    """
    Gets multiple values from memcache for the given keys.

    :param keys: keys for values to be retrieved from memcache
    :param server_key: key to use in determining which server in the ring
                        is used
    :returns: list of values
    """
    orig_key = server_key
    orig_keys = keys
    server_key = memcached.md5hash(server_key)
    keys = [memcached.md5hash(key) for key in keys]
    for (server, fp, sock) in self._get_conns(server_key):
        with api.ezipkin_client_span(
                api.default_service_name(),
                span_name='get_multi',
                binary_annotations={
                    "memcached.key": orig_key,
                    "memcached.keys": ",".join(orig_keys),
                },
        ) as zipkin_span:
            add_remote_endpoint(zipkin_span, server)
            try:
                with Timeout(self._io_timeout):
                    sock.sendall(b'get ' + b' '.join(keys) + b'\r\n')
                    line = fp.readline().strip().split()
                    responses = {}
                    while True:
                        if not line:
                            raise memcached.MemcacheConnectionError(
                                'incomplete read')
                        if line[0].upper() == b'END':
                            break
                        if line[0].upper() == b'VALUE':
                            size = int(line[3])
                            value = fp.read(size)
                            if int(line[2]) & memcached.PICKLE_FLAG:
                                if self._allow_unpickle:
                                    value = pickle.loads(value)
                                else:
                                    value = None
                            elif int(line[2]) & memcached.JSON_FLAG:
                                value = json.loads(value)
                            responses[line[1]] = value
                            fp.readline()
                        line = fp.readline().strip().split()
                    values = []
                    for key in keys:
                        if key in responses:
                            values.append(responses[key])
                        else:
                            values.append(None)
                    self._return_conn(server, fp, sock)
                    return values
            except (Exception, Timeout) as e:
                self._exception_occurred(server, e, sock=sock, fp=fp)
예제 #4
0
def _set_multi(self,
               mapping,
               server_key,
               serialize=True,
               time=0,
               min_compress_len=0):
    """
    Sets multiple key/value pairs in memcache.

    :param mapping: dictionary of keys and values to be set in memcache
    :param server_key: key to use in determining which server in the ring
                        is used
    :param serialize: if True, value is serialized with JSON before sending
                        to memcache, or with pickle if configured to use
                        pickle instead of JSON (to avoid cache poisoning)
    :param time: the time to live
    :min_compress_len: minimum compress length, this parameter was added
                        to keep the signature compatible with
                        python-memcached interface. This implementation
                        ignores it
    """
    orig_key = server_key
    server_key = memcached.md5hash(server_key)
    timeout = memcached.sanitize_timeout(time)
    msg = []
    for key, value in mapping.items():
        key = memcached.md5hash(key)
        flags = 0
        if serialize and self._allow_pickle:
            value = pickle.dumps(value, memcached.PICKLE_PROTOCOL)
            flags |= memcached.PICKLE_FLAG
        elif serialize:
            if isinstance(value, bytes):
                value = value.decode('utf8')
            value = json.dumps(value).encode('ascii')
            flags |= memcached.JSON_FLAG
        msg.append(memcached.set_msg(key, flags, timeout, value))
    for (server, fp, sock) in self._get_conns(server_key):
        with api.ezipkin_client_span(
                api.default_service_name(),
                span_name='set_multi',
                binary_annotations={
                    "memcached.key": orig_key,
                    "memcached.keys": ",".join(mapping),
                },
        ) as zipkin_span:
            add_remote_endpoint(zipkin_span, server)
            try:
                with Timeout(self._io_timeout):
                    sock.sendall(b''.join(msg))
                    # Wait for the set to complete
                    for line in range(len(mapping)):
                        fp.readline()
                    self._return_conn(server, fp, sock)
                    return
            except (Exception, Timeout) as e:
                self._exception_occurred(server, e, sock=sock, fp=fp)
예제 #5
0
def _set(self, key, value, serialize=True, time=0, min_compress_len=0):
    """
    Set a key/value pair in memcache

    :param key: key
    :param value: value
    :param serialize: if True, value is serialized with JSON before sending
                        to memcache, or with pickle if configured to use
                        pickle instead of JSON (to avoid cache poisoning)
    :param time: the time to live
    :param min_compress_len: minimum compress length, this parameter was
                                added to keep the signature compatible with
                                python-memcached interface. This
                                implementation ignores it.
    """
    orig_key = key
    key = memcached.md5hash(key)
    timeout = memcached.sanitize_timeout(time)
    flags = 0
    if serialize and self._allow_pickle:
        value = pickle.dumps(value, memcached.PICKLE_PROTOCOL)
        flags |= memcached.PICKLE_FLAG
    elif serialize:
        if isinstance(value, bytes):
            value = value.decode('utf8')
        value = json.dumps(value).encode('ascii')
        flags |= memcached.JSON_FLAG
    elif not isinstance(value, bytes):
        value = str(value).encode('utf-8')

    for (server, fp, sock) in self._get_conns(key):
        with api.ezipkin_client_span(
                api.default_service_name(),
                span_name='set',
                binary_annotations={
                    "memcached.key": orig_key,
                },
        ) as zipkin_span:
            add_remote_endpoint(zipkin_span, server)
            try:
                with Timeout(self._io_timeout):
                    sock.sendall(memcached.set_msg(key, flags, timeout, value))
                    # Wait for the set to complete
                    fp.readline()
                    self._return_conn(server, fp, sock)
                    return
            except (Exception, Timeout) as e:
                self._exception_occurred(server, e, sock=sock, fp=fp)
예제 #6
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def _get(self, key):
    """
    Gets the object specified by key.  It will also unserialize the object
    before returning if it is serialized in memcache with JSON, or if it
    is pickled and unpickling is allowed.

    :param key: key
    :returns: value of the key in memcache
    """
    orig_key = key
    key = memcached.md5hash(key)
    value = None
    for (server, fp, sock) in self._get_conns(key):
        with api.ezipkin_client_span(
                api.default_service_name(),
                span_name='get',
                binary_annotations={
                    "memcached.key": orig_key,
                },
        ) as zipkin_span:
            add_remote_endpoint(zipkin_span, server)
            try:
                with Timeout(self._io_timeout):
                    sock.sendall(b'get ' + key + b'\r\n')
                    line = fp.readline().strip().split()
                    while True:
                        if not line:
                            raise memcached.MemcacheConnectionError(
                                'incomplete read')
                        if line[0].upper() == b'END':
                            break
                        if line[0].upper() == b'VALUE' and line[1] == key:
                            size = int(line[3])
                            value = fp.read(size)
                            if int(line[2]) & memcached.PICKLE_FLAG:
                                if self._allow_unpickle:
                                    value = pickle.loads(value)
                                else:
                                    value = None
                            elif int(line[2]) & memcached.JSON_FLAG:
                                value = json.loads(value)
                            fp.readline()
                        line = fp.readline().strip().split()
                    self._return_conn(server, fp, sock)
                    return value
            except (Exception, Timeout) as e:
                self._exception_occurred(server, e, sock=sock, fp=fp)
예제 #7
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def _incr(self, key, delta=1, time=0):
    """
    Increments a key which has a numeric value by delta.
    If the key can't be found, it's added as delta or 0 if delta < 0.
    If passed a negative number, will use memcached's decr. Returns
    the int stored in memcached
    Note: The data memcached stores as the result of incr/decr is
    an unsigned int.  decr's that result in a number below 0 are
    stored as 0.

    :param key: key
    :param delta: amount to add to the value of key (or set as the value
                    if the key is not found) will be cast to an int
    :param time: the time to live
    :returns: result of incrementing
    :raises MemcacheConnectionError:
    """
    orig_key = key
    key = memcached.md5hash(key)
    command = b'incr'
    if delta < 0:
        command = b'decr'
    delta = str(abs(int(delta))).encode('ascii')
    timeout = memcached.sanitize_timeout(time)
    if delta >= 0:
        span_name = 'incr'
    else:
        span_name = 'decr'
    for (server, fp, sock) in self._get_conns(key):
        with api.ezipkin_client_span(
                api.default_service_name(),
                span_name=span_name,
                binary_annotations={
                    "memcached.key": orig_key,
                },
        ) as zipkin_span:
            add_remote_endpoint(zipkin_span, server)
            try:
                with Timeout(self._io_timeout):
                    sock.sendall(b' '.join([command, key, delta]) + b'\r\n')
                    line = fp.readline().strip().split()
                    if not line:
                        raise memcached.MemcacheConnectionError(
                            'incomplete read')
                    if line[0].upper() == b'NOT_FOUND':
                        add_val = delta
                        if command == b'decr':
                            add_val = b'0'
                        sock.sendall(b' '.join([
                            b'add', key, b'0',
                            str(timeout).encode('ascii'),
                            str(len(add_val)).encode('ascii')
                        ]) + b'\r\n' + add_val + b'\r\n')
                        line = fp.readline().strip().split()
                        if line[0].upper() == b'NOT_STORED':
                            sock.sendall(b' '.join([command, key, delta]) +
                                         b'\r\n')
                            line = fp.readline().strip().split()
                            ret = int(line[0].strip())
                        else:
                            ret = int(add_val)
                    else:
                        ret = int(line[0].strip())
                    self._return_conn(server, fp, sock)
                    return ret
            except (Exception, Timeout) as e:
                self._exception_occurred(server, e, sock=sock, fp=fp)
    raise memcached.MemcacheConnectionError(
        "No Memcached connections succeeded.")
예제 #8
0
def _patched_handle_one_response(self):
    zipkin_attrs = api.extract_zipkin_attrs_from_headers(
        self.headers,
        sample_rate=api.sample_rate_pct,
        use_128bit_trace_id=True)

    binary_annotations = {
        "http.uri": self.path,
        "worker.pid": str(os.getpid()),
    }

    local_ip, local_port = self.request.getsockname()[:2]

    # PROXY proto proxy_address will be better to use for "this server" than
    # the raw values from the socket.
    proxy_proto_proxy_ip, proxy_proto_proxy_port = getattr(
        self, 'proxy_address', (None, None))
    if proxy_proto_proxy_ip:
        local_ip = proxy_proto_proxy_ip
        local_port = int(proxy_proto_proxy_port)

    # Get the best client IP/port we can
    proxy_proto_client_ip, proxy_proto_client_port = getattr(
        self, 'client_address', (None, None))
    raw_peer_ip, raw_peer_port = self.request.getpeername()[:2]
    forwarded_for = self.headers.get('X-Forwarded-For')
    if proxy_proto_client_ip:
        # Try results of PROXY protocol first
        client_ip = proxy_proto_client_ip
        client_port = int(proxy_proto_client_port)
    elif forwarded_for:
        # Fallback on standard X-Forwarded-For
        client_ip = forwarded_for.split(',')[0].strip()
        client_port = raw_peer_port
    else:
        # Failing all that, just use the other end of the raw socket.
        client_ip = raw_peer_ip
        client_port = raw_peer_port

    with api.ezipkin_server_span(
            service_name=api.default_service_name(),
            span_name=self.command,
            zipkin_attrs=zipkin_attrs,
            sample_rate=None if zipkin_attrs else api.sample_rate_pct,
            host=local_ip,
            port=local_port,
            binary_annotations=binary_annotations,
    ) as zipkin_span:
        # For swift servers, extract a canonical service name and PID from the
        # User-Agent header.
        user_agent = self.headers.get('User-Agent', 'unknown')
        match = re.match(r'([a-zA-z]+-server) (\d+)$', user_agent)
        if match:
            user_agent = 'swift-' + match.group(1)
            zipkin_span.update_binary_annotations({
                'client.pid':
                int(match.group(2)),
            })
        zipkin_span.add_remote_endpoint(client_port, user_agent, client_ip)
        # Add in a hook to snarf out the response status
        self.environ['eventlet.posthooks'].append(
            (_extract_status_code, (zipkin_span, ), {}), )

        __original_handle_one_response__(self)

        # If we're a root span, see if we can extract a Swift transaction ID to
        # associate with this (one-per-trace) root span.  We don't track it on
        # every span because Zipkin's trace_id/span_id/parent_id values already
        # link everything together and more copies of the swift txid would just
        # waste space.
        SWIFT_TRANS_ID_KEY = 'swift.trans_id'
        if not zipkin_span.zipkin_attrs.parent_span_id:
            if SWIFT_TRANS_ID_KEY in self.environ:
                zipkin_span.update_binary_annotations({
                    SWIFT_TRANS_ID_KEY:
                    self.environ[SWIFT_TRANS_ID_KEY],
                })