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I am trying to mix up the power of twisted Protocol with the ductility of construct, the declarative binary data parser.

So far, my MessageReceiver protocol accumulates the data coming from the tcp channel in the following way:

def rawDataReceived(self, data):
    This method bufferizes the data coming from the TCP channel in the following way:
        - Initially, discard the stream until a reserved character is detected
        - add data to the buffer up to the expected message length unless the reserved character is met again. In that case discard the message and start again
        - if the expected message length is reached, attempt to parse the message and clear the buffer
    if self._buffer:
        index = data.find(self.reserved_character)

        if index > -1:
            if len(self._buffer) + index >= self._fixed_size:
                self.on_message(self._buffer + data[:data.index(self._reserved_character)])

            self._buffer = b''
            data = data[data.index(self.reserved_character):]
            [self.on_message(chunks[:self._fixed_size]) for chunks in  [self.reserved_character + msg for msg in data.split(self._reserved_character) if msg]]

        elif len(self._buffer) + len(data) < self._expected_size:
            self._buffer = self._buffer + data
            self._buffer = b''
            data = data[data.index(self._reserved_character):]
            [self.on_message(chunks[:self._fixed_size]) for chunks in  [self._reserved_character + msg for msg in data.split(self._reserved_character) if msg]]
        except Exception, exc:
            log.msg("Warning: Maybe there is no delimiter {delim} for the new message. Error: {err}".format(delim=self._reserved_character, err=str(exc)))

Now I am in need of evolving the protocol to take into consideration the fact that the message may or may not carry optional fields (thus there isn't a fixed message length anymore). I modeled (a meaningful part of) the message parser with construct in the following way:

def on_message(self, msg):
    return Struct(HEADER,
        Bytes(HEADER_RAW, 3),
        If(lambda ctx: ctx.optional_header_struct[OPTIONAL_HEADER_FLAG],
                   Bytes(OPTIONAL_HEADER, 3)

So right now I am in need to change the buffering logic to pass the right chunk size to the Struct. I would like to avoid sizing up the data to be passed to the Structin the rawDataReceived method considering that the rules of what is a possible candidate for a message are known in the construct object.

Is there any way to push the buffering logic to the construct object?


I was able to partially achieved the aim to push the buffering logic inside, by simply making use of Macros and Adapters:

MY_PROTOCOL = Struct("whatever",
    RepeatUntil(lambda obj, ctx:obj==RESERVED_CHAR, Field("garbage", 1)),
    Value("size", lambda ctx:ctx.end - ctx.begin)

This greatly simplifies the caller code (which is no longer in rawDataReceived thanks to Glyph's suggestion):

def dataReceived(self, data):
    log.msg('Received data: {}'.format(bytes_to_hex(data)))
    self._buffer += data
        container = My_PROTOCOL.parse(self._buffer)
        self._buffer = self._buffer[container.size:]
        d, self.d = self.d, self._create_new_transmission_deferred()
    except ValidationError, err:
        self._cb_error("A validation error occurred. Discarding the rest of the message. {}".format(err))
        self._buffer = b''    
    except FieldError, err:     #Incomplete message. We simply keep on buffering and retry
        if len(self._buffer) >= MyMessageReceiver.MAX_GARBAGE_SIZE:
            self._cb_error("Buffer overflown. No delimiter found in the stream")

Unfortunately this solution covers the requirements only partially since I could not find a way to get construct to tell me the index of the stream that produced the error and therefore I am obliged to drop the entire buffer, which is not ideal.

share|improve this question
rawDataReceived is a method on LineReceiver, not Protocol. I think you want just dataReceived. –  Glyph Feb 27 '13 at 18:28
Sorry, my bad. MessageReceiver extends LineReceiver, that is what I meant –  autholykos Feb 27 '13 at 18:51
Why? I don't see a lineReceived here, and rawDataReceived never calls setLineMode. –  Glyph Feb 28 '13 at 6:18
@Glyph: It is just the lose end of an incomplete refactoring, thanks for pointing it out. Indeed, instead of extending a LineReceiver and setRawMode, I'd better extend Protocol directly and override dataReceived instead –  autholykos Feb 28 '13 at 20:44
By the way, are you designing this protocol yourself, or are you parsing from something (from your example, I'm guessing an existing piece of hardware?) –  Glyph Mar 1 '13 at 22:17

1 Answer 1

To get the stream position at which an error occurs, you'll need to use Anchor and write your own version of NoneOf. Assuming HEADER_SECTION is another Construct, replace the NoneOf like so:

SpecialNoneOf(Struct('example', Anchor('position'), HEADER_SECTION), [RESERVED_CHAR]))

SpecialNoneOf needs to subclass from Adapter and combine init and _validate from NoneOf with _encode and _decode from Validator. In _decode, replace

raise ValidationError("invalid object", obj)


raise ValidationError("invalid object", obj.header_section + " at " + obj.position)

Replace header_section with the name of the HEADER_SECTION Construct. You will have to change the structure of the resulting container or figure out a different way to use Embed to make this method work.

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