I'm currently trying to use msgpack in a project written in C. I'm using msgpack for the purpose of serializing the contents of a struct, which is then to be sent over the network, and deserialized back into a corresponding struct on the other side.

Condensed version of what I'm trying to do:

#include <stdio.h>
#include <msgpack.h>
#include <stdbool.h>

typedef someStruct{
uint32_t a;
uint32_t b;
float    c;
} someStruct;

int main (void){
    someStruct data;
    /* ... Fill 'data' with some data for test purposes ...*/

    msgpack_sbuffer* buff = msgpack_sbuffer_new();
    msgpack_packer* pck = msgpack_packer_new(buff, msgpack_sbuffer_write);        

    someStruct* structs = malloc(sizeof(someStruct) * 10);

    /* ... Fill 'structs' with members containing test data ... */
    // Serialize
    msgpack_pack_array (pck, 10);

    int i;
    for(i = 0 ; i < 10 ; i++){
    msgpack_pack_array (pck, 3);
    msgpack_pack_uint32 (pck, structs[i].a);
    msgpack_pack_uint32 (pck, structs[i].b);
    msgpack_pack_float (pck, structs[i].c);
    }

    free(structs);
    msgpack_packer_free(pck);

    // Deserialize
    msgpack_unpacked msg;
    msgpack_unpacked_init(&msg);
    bool deserialize_success = msgpack_unpack_next
                               (&msg, buff->data, buff->size, NULL);
    if(!deserialize_success) /* Error */

    msgpack_object obj = msg.data;
    msgpack_object_print(stdout,obj); // This seems to work perfectly, indicating serialize / deserialize works as intended...

    someStruct deserialized_data;
    /* Insert code to extract and cast deserialized data to 'deserialized_data */
    // Clean
    msgpack_sbuffer_free(buff);
    msgpack_packer_free(pck);

return 0;
}

The code listed is more or less ripped straight from here, which seems to be one of very few resources on msgpack-c.

Can anyone point me in the right direction as to a way to 'recreate' the original struct on the other side of the wire? The only way I've found to actually utilize the deserialized data, is to use the msgpack_object_print() call to print from the messagepack_object. This does, however seem to work, so I'm certain the data is there.

Do I need to somehow loop through the serialized data and use msgpack_unpack_next() with an offset to retrieve each someStruct member? Using memcpy to a local byte buffer?

Any help is greatly appreciated!

up vote 6 down vote accepted

Please find below a rewritten version that illustrates how to pack / unpack your data.

The whole idea is to pack each successive field of your struct, in a contiguous fashion, and apply (of course), the same logic at unpack time.

Right after pack, you are free to use the buffer the way you want (e.g send over the network, save on-disk, etc).

#include <stdio.h>
#include <assert.h>
#include <msgpack.h>

typedef struct some_struct {
  uint32_t a;
  uint32_t b;
  float c;
} some_struct;

static char *pack(const some_struct *s, int num, int *size);
static some_struct *unpack(const void *ptr, int size, int *num);

/* Fixtures */
some_struct ary[] = {
  { 1234, 5678, 3.14f },
  { 4321, 8765, 4.13f },
  { 2143, 6587, 1.34f }
};

int main(void) {
  /** PACK */
  int size;
  char *buf = pack(ary, sizeof(ary)/sizeof(ary[0]), &size);
  printf("pack %zd struct(s): %d byte(s)\n", sizeof(ary)/sizeof(ary[0]), size);

  /** UNPACK */
  int num;
  some_struct *s = unpack(buf, size, &num);
  printf("unpack: %d struct(s)\n", num);

  /** CHECK */
  assert(num == (int) sizeof(ary)/sizeof(ary[0]));
  for (int i = 0; i < num; i++) {
    assert(s[i].a == ary[i].a);
    assert(s[i].b == ary[i].b);
    assert(s[i].c == ary[i].c);
  }
  printf("check ok. Exiting...\n");

  free(buf);
  free(s);

  return 0;
}

static char *pack(const some_struct *s, int num, int *size) {
  assert(num > 0);
  char *buf = NULL;
  msgpack_sbuffer sbuf;
  msgpack_sbuffer_init(&sbuf);
  msgpack_packer pck;
  msgpack_packer_init(&pck, &sbuf, msgpack_sbuffer_write);
  /* The array will store `num` contiguous blocks made of a, b, c attributes */
  msgpack_pack_array(&pck, 3 * num);
  for (int i = 0; i < num; ++i) {
    msgpack_pack_uint32(&pck, s[i].a);
    msgpack_pack_uint32(&pck, s[i].b);
    msgpack_pack_float(&pck, s[i].c);
  }
  *size = sbuf.size;
  buf = malloc(sbuf.size);
  memcpy(buf, sbuf.data, sbuf.size);
  msgpack_sbuffer_destroy(&sbuf);
  return buf;
}

static some_struct *unpack(const void *ptr, int size, int *num) {
  some_struct *s = NULL;
  msgpack_unpacked msg;
  msgpack_unpacked_init(&msg);
  if (msgpack_unpack_next(&msg, ptr, size, NULL)) {
    msgpack_object root = msg.data;
    if (root.type == MSGPACK_OBJECT_ARRAY) {
      assert(root.via.array.size % 3 == 0);
      *num = root.via.array.size / 3;
      s = malloc(root.via.array.size*sizeof(*s));
      for (int i = 0, j = 0; i < root.via.array.size; i += 3, j++) {
        s[j].a = root.via.array.ptr[i].via.u64;
        s[j].b = root.via.array.ptr[i + 1].via.u64;
        s[j].c = root.via.array.ptr[i + 2].via.dec;
      }
    }
  }
  msgpack_unpacked_destroy(&msg);
  return s;
}

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