/**
 * physical_ready() event-handler.
 *
 * It is called when the physical layer is ready. It simply reads from the
 * physical layer and passes the message to the link layer.
 */
static EVENT_HANDLER(physical_ready)
{
  size_t length;
  int link;

  length = sizeof(msg);
  CHECK(CNET_read_physical(&link, msg, &length));
  link_receive(link, msg, length);
}
Beispiel #2
0
// processes incoming packet, it will take ownership of p
link_t mesh_receive(mesh_t mesh, lob_t outer, pipe_t pipe)
{
  lob_t inner;
  link_t link;
  char token[17];
  hashname_t id;

  if(!mesh || !outer || !pipe) return LOG("bad args");
  
  LOG("mesh receiving %s to %s via pipe %s",outer->head_len?"handshake":"channel",hashname_short(mesh->id),pipe->id);

  // process handshakes
  if(outer->head_len == 1)
  {
    inner = e3x_self_decrypt(mesh->self, outer);
    if(!inner)
    {
      LOG("%02x handshake failed %s",outer->head[0],e3x_err());
      lob_free(outer);
      return NULL;
    }
    
    // couple the two together, inner->outer
    lob_link(inner,outer);

    // set the unique id string based on some of the first 16 (routing token) bytes in the body
    base32_encode(outer->body,10,token,17);
    lob_set(inner,"id",token);

    // process the handshake
    return mesh_receive_handshake(mesh, inner, pipe);
  }

  // handle channel packets
  if(outer->head_len == 0)
  {
    if(outer->body_len < 16)
    {
      LOG("packet too small %d",outer->body_len);
      lob_free(outer);
      return NULL;
    }
    
    route_t route;
    for(route = mesh->routes;route;route = route->next) if(memcmp(route->token,outer->body,8) == 0) break;
    link = route ? route->link : NULL;
    if(!link)
    {
      LOG("dropping, no link for token %s",util_hex(outer->body,16,NULL));
      lob_free(outer);
      return NULL;
    }
    
    // forward packet
    if(!route->flag)
    {
      LOG("forwarding route token %s via %s len %d",util_hex(route->token,8,NULL),hashname_short(link->id),lob_len(outer));
      return link_send(link, outer);
    }
    
    inner = e3x_exchange_receive(link->x, outer);
    lob_free(outer);
    if(!inner) return LOG("channel decryption fail for link %s %s",hashname_short(link->id),e3x_err());
    
    LOG("channel packet %d bytes from %s",lob_len(inner),hashname_short(link->id));
    return link_receive(link,inner,pipe);
    
  }

  // transform incoming bare link json format into handshake for discovery
  if((inner = lob_get_json(outer,"keys")))
  {
    if((id = hashname_vkeys(inner)))
    {
      lob_set(outer,"hashname",hashname_char(id));
      lob_set_int(outer,"at",0);
      lob_set(outer,"type","link");
      LOG("bare incoming link json being discovered %s",lob_json(outer));
    }
    lob_free(inner);
  }
  
  // run everything else through discovery, usually plain handshakes
  mesh_discover(mesh, outer, pipe);
  link = mesh_linked(mesh, lob_get(outer,"hashname"), 0);
  lob_free(outer);

  return link;
}