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We have a application protocol defined as C++ classes which are transferred over the network. I want to connect to a server which sends data in this format. I want to write a client in lisp (sbcl is preferred) to communicate with this server. I would prefer it to be written in pure lisp instead of using CFFI to wrap around a C++ dll. The sample structures would look something like this:

class Header
    int MsgType;
    uint64_t Length;

class SampleMsg
    Header MsgHeader;
    char Field1[256];
    bool Field2;
    double Field3;
    SomeOtherClass Field4;

I want to know how to map these structs in lisp so that they are binary-compatible and how to read/write such structs. Is there a simpler way than packing/unpacking each field in a struct?

For example in C# you can map the binary structure like follows and read it directly from a byte array:

public struct Header
    public int MsgType;
    public ulong Length;

public struct SampleMsg
    public Header MsgHeader;
    [MarshalAs(UnmanagedType.ByValTStr, SizeConst = 256)]
    public string Field1;
    public bool Field2;
    public double Field3;
    public SomeOtherClass Field4;

If a similar method is possible in lisp it would be ideal. If not, I'm willing to do some plumbing as long as it's manageable.


Tried Svante's suggestion:

(ql:quickload "userial")
(in-package :sb-bsd-sockets)

(defun read-buffer (host port)
  (let ((socket (make-instance 'inet-socket :type :stream :protocol :tcp)))
    (socket-connect socket host port)
    (let ((buf (socket-receive socket nil 1024 :element-type '(unsigned-byte 8))))
      (socket-close socket)

(defstruct header

(userial:make-slot-serializer (:header header (make-header))
                  :int64 msg-type
                  :uint64 length)

(defvar *buffer*)
(defvar *b*)
(setq *buffer* (read-buffer #(10 1 2 75) 5003))
(setq *b* (make-array 2048 :element-type '(unsigned-byte 8) :fill-pointer 0 :adjustable t))
(map 'vector #'(lambda (x) (vector-push x *b*)) *buffer*)

(setf (fill-pointer *b*) 0)

At this point, *b* holds something like this: #(7 0 0 0 0 0 0 0 176 2 0 0 0 0 0 0 45 71 253 83 0 0 0 0 165 30 11 11 0 0 0 ...) . The first 7 corresponds to the msg type which should be 7. The length is supposed to be 688 (176 + 2*256).

Now I do (userial:with-buffer *b* (userial:unserialize :header)). This gives me

#S(HEADER :MSG-TYPE 504403158265495552 :LENGTH 12682699500628738048)
#(7 0 0 0 0 0 0 0 176 2 0 0 0 0 0 0)

Seems like an endianness problem. How to fix this? I can't find any way to handle endianness within userial lib.


Finally ended up giving up on userial and writing these (Following Practical Common Lisp book):

(defun read-64 (buf)
  (let ((u 0))
    (setf (ldb (byte 8 56) u) (aref buf 7))
    (setf (ldb (byte 8 48) u) (aref buf 6))
    (setf (ldb (byte 8 40) u) (aref buf 5))
    (setf (ldb (byte 8 32) u) (aref buf 4))
    (setf (ldb (byte 8 24) u) (aref buf 3))
    (setf (ldb (byte 8 16) u) (aref buf 2))
    (setf (ldb (byte 8 8) u) (aref buf 1))
    (setf (ldb (byte 8 0) u) (aref buf 0))

(defun read-32 (buf)
   (let ((u 0))
    (setf (ldb (byte 8 24) u) (aref buf 3))
    (setf (ldb (byte 8 16) u) (aref buf 2))
    (setf (ldb (byte 8 8) u) (aref buf 1))
    (setf (ldb (byte 8 0) u) (aref buf 0))

(defun read-16 (buf)
  (let ((u 0))
    (setf (ldb (byte 8 8) u) (aref buf 1))
    (setf (ldb (byte 8 0) u) (aref buf 0))

Now I can write (read-uint64 (subseq *buffer* 8 16)) to get length of msg. Thanks for all the help.

share|improve this question
Note: I haven't looked at C++ binary representations in quite a long time. Is there a guarantee about what the network serialization of your struct will be? Can't different compilers align things differently (e.g., padding)? Can't the size of some of those types vary (e.g., int, char)? Those would keep this from being an easy problem, because the binary serialization will depend on the compiler. If you can guarantee a consistent binary representation though, then reading the serialization shouldn't be a problem. –  Joshua Taylor Aug 25 '14 at 12:34
There's a chapter in Practical Common Lisp, 24. Practical: Parsing Binary Files that should make this task much easier. The question is whether you can guarantee the particular binary representation on the wire. –  Joshua Taylor Aug 25 '14 at 12:35
I would consider using some textual serialization protocol like JSON for which libraries exist both in C++ and in Common Lisp. –  Basile Starynkevitch Aug 25 '14 at 12:54
@BasileStarynkevitch I agree. That'd be a much easier solution in general. OP does, though, (emphasis added), "want to know how to map these structs in lisp so that they are binary-compatible and how to read/write such structs [and whether] there a simpler way than packing/unpacking each field in a struct?" –  Joshua Taylor Aug 25 '14 at 12:57
@JoshuaTaylor: Yes I can guarantee the representation on the wire. –  nakiya Aug 26 '14 at 1:19

1 Answer 1

up vote 3 down vote accepted

You could use userial, available from Quicklisp.

However, I would be looking very hard for a way to eliminate the need to keep two definition places synchronized (one on the C++, one on the Lisp side).

Edit: Here is what I had in mind. I have only made a few very shallow tests, so no guarantees. In particular, I have not tested with C++ output, and you will most likely have to adjust a lot for alignment.

(defstruct header

;; Msg-type might be best handled with an enum unserializer:
;; (make-enum-unserializer :msg-type (:foo :bar)), but I don't know
;; what your values are.

(defstruct sample-msg

;; You might need to use a different serializer for msg-type for
;; alignment.

(make-slot-serializer (:header header (make-header))
  :int msg-type
  :uint64 length)

(make-vector-serializer :vector-256-char :uint8 256)

;; I have no idea how a boolean is serialized and aligned on the C++
;; side, so I'll just use :boolean for field-3 here as a first
;; attempt.

(make-slot-serializer (:sample-msg sample-msg (make-sample-msg))
  :header msg-header
  :vector-256-char field-1
  :boolean field-2
  :float64 field-3
  :some-other field-4)

;; You can serialize and unserialize now:

(serialize :sample-msg some-sample-msg)


(unserialize :sample-msg)

;; Userial operates on an adjustable vector with fill-pointer in the
;; special variable *buffer*, so you'll need to fill that with content
;; from wherever you read that from.

(with-buffer (read-my-content)
  (unserialize :sample-msg))
share|improve this answer
But why not? If we are speaking about some network communication protocol, there is a lot of applications developed with different languages and tools, and everithing working, if protocol is good and everyone folowing it. –  coredump Aug 21 '14 at 15:15
@Svante, Thanks for the suggestion. Would you be able to provide a small snippet on how to use it for the example structure in the question perhaps? –  nakiya Aug 22 '14 at 3:06
-1 (i) As written, this is essentially a link-only answer. (The second ¶ is pretty much just a comment.) (ii) looking at userial, I didn't see any support for handling serializations of C++ data (but I might have missed it; if you expand the answer with an example, I'll gladly upvote). –  Joshua Taylor Aug 25 '14 at 15:18
+1 This is a nice example! –  Joshua Taylor Aug 26 '14 at 1:26
One question. How do I peek/read the msg type from the data receive from socket? I have to do that to find out which struct to unserialize to. –  nakiya Aug 26 '14 at 1:27

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