Exemplo n.º 1
0
CmResult COFP10PacketOutMsg::StreamFrom(ACE_InputCDR &is)
{
    CmResult lRet = CM_ERROR_FAILURE;

    lRet = COFPMessage::StreamFrom(is);
    if (CM_FAILED(lRet))
    {
        ACE_ERROR((LM_ERROR, ACE_TEXT("COFP10PacketOutMsg::StreamFrom, COFPMessage::StreamFrom fail\n")));
        return lRet;
    }

    is>>m_tMember.buffer_id;
    is>>m_tMember.in_port;
    is>>m_tMember.actions_len;
    
    bool bGood = is.good_bit();
    CM_ASSERT_RETURN(bGood, CM_ERROR_FAILURE);

    if (m_tMember.actions_len > 0)
    {
        ACE_INT16 swListLen = m_tMember.actions_len;
        ACE_UINT16 i = 0;
        while (swListLen > 0)
        {
            COFP10Action *action = nullptr;
            lRet = COFP10Action::DecodeAction(is, action);
            if (CM_SUCCEEDED(lRet))
            {
                m_action_list.push_back(action);
                ACE_DEBUG((LM_DEBUG, ACE_TEXT("action[%u], len=%u\n"), i++, action->GetActionLen()));
                swListLen -= action->GetActionLen();
            }
            else
            {
                ACE_ERROR((LM_ERROR, ACE_TEXT("COFP10PacketOutMsg::StreamFrom, COFP10Action::DecodeAction failed\n")));
                return CM_ERROR_FAILURE;
            }
        }
    }

    ACE_INT16 swDataLen = m_wLength - COFPMessage::GetStreamLen() - sizeof(m_tMember) - m_tMember.actions_len;
    if (swDataLen < 0)
    {
        ACE_ERROR((LM_ERROR, 
                   ACE_TEXT("COFP10PacketOutMsg::StreamFrom, packet data len(%d) is invalid\n"), 
                   swDataLen));
        ACE_ASSERT(0);
        return CM_ERROR_FAILURE;
    }

    if (swDataLen == 0)
    {
        m_wDataLen = 0;
        return CM_OK;
    }

    ACE_Message_Block Data(swDataLen);

    ACE_DEBUG((LM_DEBUG, 
               ACE_TEXT("COFP10PacketOutMsg::StreamFrom, wr_ptr = %p, space = %u\n"), 
               Data.wr_ptr(),
               Data.space()));

    bGood = is.read_char_array(Data.wr_ptr(), swDataLen);
    CM_ASSERT_RETURN(bGood, CM_ERROR_FAILURE);

    Data.wr_ptr((size_t)swDataLen);
    
    if (m_PacketData)
    {
        m_PacketData->append(Data.duplicate());
    }
    else
    {
        m_PacketData = Data.duplicate();
    }
    m_wDataLen += swDataLen;

    return CM_OK;
}
Exemplo n.º 2
0
CmResult COFP13PacketOutMsg::StreamFrom(ACE_InputCDR &is)
{
    ACE_INT32 remainActLen = 0;
    ACE_INT32 packet_length = 0;
    ACE_CDR::Octet pad[6];
    CmResult lRet = CM_ERROR_FAILURE;
    
    lRet = COFPMessage::StreamFrom(is);
    if (CM_FAILED(lRet))
    {
        ACE_ERROR((LM_ERROR, ACE_TEXT("COFP13PacketOutMsg::StreamFrom(), COFPMessage::StreamFrom fail\n")));
        return lRet;
    }

    ACE_DEBUG((LM_DEBUG, ACE_TEXT("COFP13PacketOutMsg::StreamFrom(): \n")));
    
    is>>m_buffer_id;
    is>>m_in_port;
    is>>m_actions_len;
    is.read_octet_array(pad, sizeof(pad));
    
    bool bGood = is.good_bit();
    CM_ASSERT_RETURN(bGood, CM_ERROR_FAILURE);

    ACE_DEBUG((LM_DEBUG, ACE_TEXT("m_actions_len=%u\n"), m_actions_len));
    
    if (m_actions_len>0)
    {
        remainActLen = m_actions_len;
        ACE_UINT16 i = 0;
        while (remainActLen > 0)
        {
            COFP13Action *action = nullptr;
            CmResult result = COFP13Action::DecodeAction(is, action);
            if (CM_SUCCEEDED(result))
            {
                m_action_list.push_back(action);
                ACE_DEBUG((LM_DEBUG, ACE_TEXT("action[%u], len=%u\n"), i++, action->GetStreamLen()));
                remainActLen = remainActLen - (action->GetStreamLen());
            }
            else
            {
                ACE_ERROR((LM_ERROR, ACE_TEXT("COFP13Action::DecodeAction failed.\n")));
                return CM_ERROR_FAILURE;
            }
        }
    }

    ACE_UINT32 length = sizeof(m_buffer_id)+sizeof(m_in_port)+sizeof(m_actions_len)+sizeof(m_pad);
    ACE_DEBUG((LM_DEBUG, ACE_TEXT("length=%u\n"), length));

    packet_length = m_wLength-COFPMessage::GetStreamLen()-length-m_actions_len;
    ACE_DEBUG((LM_DEBUG, ACE_TEXT("packet_length=%d, GetStreamLen=%u\n"), packet_length, GetStreamLen()));
    if (packet_length < 0)
    {
        ACE_ERROR((LM_ERROR, 
                   ACE_TEXT("COFP13PacketOutMsg::StreamFrom, error, length=%u, actionlength=%u\n"), 
                   length, 
                   m_actions_len));
        return CM_ERROR_FAILURE;
    }

    ACE_Message_Block data(packet_length);

    ACE_DEBUG((LM_DEBUG, 
               ACE_TEXT("COFP13PacketOutMsg::StreamFrom, wr_ptr=%p, space=%u\n"),
               data.wr_ptr(),
               data.space()));
    
    bGood = is.read_char_array(data.wr_ptr(), packet_length);
    CM_ASSERT_RETURN(bGood, CM_ERROR_FAILURE);

    data.wr_ptr((size_t)packet_length);
    
    if (m_PacketData)
    {
        m_PacketData->append(data.duplicate());
    }
    else
    {
        m_PacketData = data.duplicate();
    }

    return CM_OK;
}
Exemplo n.º 3
0
  virtual int svc () {
    const size_t FileReadSize = 8 * 1024;
    ACE_Message_Block mblk (FileReadSize);

    for (;; mblk.crunch ()) {
      // Read as much as will fit in the message block.
      ssize_t bytes_read = logfile_.recv (mblk.wr_ptr (),
                                          mblk.space ());
      if (bytes_read <= 0)
        break;
      mblk.wr_ptr (static_cast<size_t> (bytes_read));

      // We have a bunch of data from the log file. The data is
      // arranged like so:
      //    hostname\0
      //    CDR-encoded log record
      // So, first we scan for the end of the host name, then
      // initialize another ACE_Message_Block aligned for CDR
      // demarshaling and copy the remainder of the block into it. We
      // can't use duplicate() because we need to be sure the data
      // pointer is aligned properly for CDR demarshaling.  If at any
      // point, there's not enough data left in the message block to
      // extract what's needed, crunch the block to move all remaining
      // data to the beginning and read more from the file.
      for (;;) {
        size_t name_len = ACE_OS::strnlen
                             (mblk.rd_ptr (), mblk.length ());
        if (name_len == mblk.length ()) break;

        char *name_p = mblk.rd_ptr ();
        ACE_Message_Block *rec, *head, *temp;
        ACE_NEW_RETURN
          (head, ACE_Message_Block (name_len, MB_CLIENT), 0);
        head->copy (name_p, name_len);
        mblk.rd_ptr (name_len + 1);   // Skip nul also

        size_t need = mblk.length () + ACE_CDR::MAX_ALIGNMENT;
        ACE_NEW_RETURN (rec, ACE_Message_Block (need), 0);
        ACE_CDR::mb_align (rec);
        rec->copy (mblk.rd_ptr (), mblk.length ());

        // Now rec contains the remaining data we've read so far from
        // the file. Create an ACE_InputCDR to start demarshaling the
        // log record, header first to find the length, then the data.
        // Since the ACE_InputCDR constructor increases the reference count
        // on rec, we release it upon return to prevent leaks.
        // The cdr 'read' methods return 0 on failure, 1 on success.
        ACE_InputCDR cdr (rec); rec->release ();
        ACE_CDR::Boolean byte_order;
        if (!cdr.read_boolean (byte_order)) {
          head->release (); rec->release (); break;
        }
        cdr.reset_byte_order (byte_order);

        // Now read the length of the record. From there, we'll know
        // if rec contains the complete record or not.
        ACE_CDR::ULong length;
        if (!cdr.read_ulong (length)) {
          head->release (); mblk.rd_ptr (name_p); break;
        }
        if (length > cdr.length ()) {
          head->release (); mblk.rd_ptr (name_p); break;
        }

        // The complete record is in rec... grab all the fields into
        // separate, chained message blocks.
        ACE_NEW_RETURN (temp,
                        ACE_Message_Block (length, MB_TEXT),
                        0);
        ACE_NEW_RETURN
          (temp,
           ACE_Message_Block (2 * sizeof (ACE_CDR::Long),
                              MB_TIME, temp),
           0);
        ACE_NEW_RETURN
          (temp,
           ACE_Message_Block (sizeof (ACE_CDR::Long),
                              MB_PID, temp),
           0);
        ACE_NEW_RETURN
          (temp,
           ACE_Message_Block (sizeof (ACE_CDR::Long),
                              MB_TYPE, temp),
           0);
        head->cont (temp);

        // Extract the type
        ACE_CDR::Long *lp;
        lp = reinterpret_cast<ACE_CDR::Long*> (temp->wr_ptr ());
        cdr >> *lp;
        temp->wr_ptr (sizeof (ACE_CDR::Long));
        temp = temp->cont ();

        // Extract the pid
        lp = reinterpret_cast<ACE_CDR::Long*> (temp->wr_ptr ());
        cdr >> *lp;
        temp->wr_ptr (sizeof (ACE_CDR::Long));
        temp = temp->cont ();

        // Extract the timestamp (2 Longs)
        lp = reinterpret_cast<ACE_CDR::Long*> (temp->wr_ptr ());
        cdr >> *lp; ++lp; cdr >> *lp;
        temp->wr_ptr (2 * sizeof (ACE_CDR::Long));
        temp = temp->cont ();

        // Demarshal the length of the message text, then demarshal
        // the text into the block.
        ACE_CDR::ULong text_len;
        cdr >> text_len;
        cdr.read_char_array (temp->wr_ptr (), text_len);
        temp->wr_ptr (text_len);

        // Forward the whole lot to the next module.
        if (put_next (head) == -1) break;

        // Move the file-content block's read pointer up past whatever
        // was just processed. Although the mblk's rd_ptr has not been
        // moved, cdr's has.  Therefore, use its length() to determine
        // how much is left.
        mblk.rd_ptr (mblk.length () - cdr.length ());
      }
    }

    // Now that the file is done, send a block down the stream to tell
    // the other modules to stop.
    ACE_Message_Block *stop;
    ACE_NEW_RETURN
      (stop, ACE_Message_Block (0, ACE_Message_Block::MB_STOP),
       0);
    put_next (stop);
    return 0;
  }