Esempio n. 1
0
/*
 *
 * Function: start
 * Description:  启动子系统服务名
 * Input: 
 *      pstClient - 通讯接口字
 *      pczName  - 子系统服务名
 * OutPut:
 *      
 * Return:
 *      -1 -  FAIL
 *       0 -  SUCC
 * Other:
 *
 */
int CommandServer::start( apr_socket_t *pstClient, char *pczName )
{
   int iEmptyIdx = 0, iShmOffset;
   pid_t tChild;
   char aczRsp[100];
   apr_size_t tLen;

   if( getRunningIndex( pczName ) != -1 )
   {
      LOG4C(( LOG_WARN, "%s 子系统已经在运行\n", pczName ));
      sprintf( aczRsp, "<    %-11.11s>子系统已经在运行", pczName );
      tLen = strlen( aczRsp );
      apr_socket_send( pstClient, aczRsp, &tLen );
      return -1;
   }

   if( (iEmptyIdx = getEmptyIndex()) == -1 )
   {
      LOG4C(( LOG_WARN, "无足够的管理器运行 %s 子系统\n", pczName ));
      sprintf( aczRsp, "无足够的管理器运行 %s 子系统", pczName );
      tLen = strlen( aczRsp );
      apr_socket_send( pstClient, aczRsp, &tLen );
      return -1;
   }

   iShmOffset = iEmptyIdx*m_pstConfig->m_iMaxChild;

   if( !fileExistAndExec( "nlmanager" ) )
   {
      LOG4C(( LOG_WARN, "nlmanager 不存在, 请检查系统\n" ));
      sprintf( aczRsp, "系统错误, 请检查" );
      tLen = strlen( aczRsp );
      apr_socket_send( pstClient, aczRsp, &tLen );
      return -1;
   }

   if( (tChild = runAnyManager( pczName, iEmptyIdx )) == -1 )
   {
      LOG4C(( LOG_WARN, "运行 nlmanager 失败, 请检查系统\n" ));
      sprintf( aczRsp, "运行 nlmanager 失败, 请检查系统" );
      tLen = strlen( aczRsp );
      apr_socket_send( pstClient, aczRsp, &tLen );
      return -1;
   }

   LOG4C(( LOG_INFO, "%s 子系统已经开始运行\n", pczName ));
   sprintf( aczRsp, "<    %-11.11s>子系统启动成功|Start Success", pczName );
   tLen = strlen( aczRsp );
   apr_socket_send( pstClient, aczRsp, &tLen );

   saveBusiManager( iEmptyIdx, pczName, tChild );
   LOG4C(( LOG_INFO, "%s 子系统已经开始运行, 等待下一次运行\n", pczName ));

   return 0;
}
Esempio n. 2
0
u08 Ctransport::tx(u08 _handle, u08 nodeId, u08* pDat, u08 numBytes, u08** ppRsp) {
  u08 i;
  u08 ret;
  switch (_handle) {
    //========================================================================
    //  Create a new transaction - get first available handle/index
    case handleEmpty:
      i = getEmptyIndex();
      if (i < maxTransactions) {
        txList[i].used = true;
        txList[i].nodeId = nodeId;
        memcpy(txList[i].txDat, pDat, numBytes);
        memset(txList[i].rxDat, 0, sizeof(txList[i].rxDat));
        txList[i].len = numBytes;
        //txList[index].rsp = Rsp;
        txList[i].done = false;
        txList[i].cntTx = 0;
        txList[i].timeout = false;
      } else {
        i = handleEmpty;
      }
      ret = i;
      break;
      //========================================================================
      //  Reset the handle
    case handleDone:
      ret = handleEmpty;
      break;
      //========================================================================
      //  Respond with existing transaction in Queue
    default:
      if (_handle < maxTransactions) {
        if (txList[_handle].timeout) {
          txList[_handle].timeout = false;
          txList[_handle].used = false;
          ret = handleEmpty;
        } else if (txList[_handle].done) {
          txList[_handle].used = false;
          *ppRsp = (u08*) &txList[_handle].rxDat[0];
          ret = handleDone;
        } else {
          ret = _handle;
        }
      } else {
        ret = handleEmpty;
      }
      break;
  }
  return ret;
}
Esempio n. 3
0
bool IcmpWrapper::receive(void)
{
    if(rawSock->fd == -1) {                                   // ICMP socket closed? quit, no data
        return false;
    }

    //-----------------------
    // receive the data
    // recvfrom will receive only one ICMP packet, even if there are more than 1 packets waiting in socket
    struct sockaddr_in src_addr;
    socklen_t addrlen = sizeof(struct sockaddr);

    ssize_t res = recvfrom(rawSock->fd, recvBfr, RECV_BFR_SIZE, MSG_DONTWAIT, (struct sockaddr *) &src_addr, &addrlen);

    if(res == -1) {                 // if recvfrom failed, no data
        if(errno != EAGAIN && errno != EWOULDBLOCK) {
            Debug::out(LOG_ERROR, "IcmpWrapper::receive() - recvfrom() failed, errno: %d", errno);
        } 

        return false;
    } else if (res == 0) {
        Debug::out(LOG_ERROR, "IcmpWrapper::receive() - recvfrom() returned 0");
        return false;
    }

    // res now contains length of ICMP packet (header + data)
    Debug::out(LOG_DEBUG, "IcmpWrapper::receive() %d bytes from %s", res, inet_ntoa(src_addr.sin_addr));

    //-----------------------
    // parse response to the right structs
    int i = getEmptyIndex();        // now find space for the datagram
    if(i == -1) {                   // no space? fail, but return that we were able to receive data
        Debug::out(LOG_DEBUG, "IcmpWrapper::receive() - dgram_getEmpty() returned -1");
        return true;
    }

    TStingDgram *d = &dgrams[i];
    d->clear();
    d->time = Utils::getCurrentMs();
    
    //-------------
    // fill IP header
    d->data[0] = 0x45;                          // IP ver, IHL
    Utils::storeWord(d->data + 2, 20 + res);    // data[2 .. 3] = TOTAL LENGTH = IP header lenght (20) + ICMP header & data length (res)
    d->data[8] = 128;                           // TTL
    d->data[9] = ICMP;                          // protocol

    Utils::storeDword(d->data + 12, ntohl(src_addr.sin_addr.s_addr));     // data[12 .. 15] - source IP
    Utils::storeDword(d->data + 16, localIp);                           // data[16 .. 19] - destination IP 

    WORD checksum = TRawSocks::checksum((WORD *) d->data, 20);
    Utils::storeWord(d->data + 10, checksum);                           // calculate chekcsum, store to data[10 .. 11]
    //-------------
    // fill IP_DGRAM header
    Utils::storeWord(d->data + 30, res);                                // data[30 .. 31] - pkt_length - length of IP packet data block (res)
    Utils::storeDword(d->data + 32, 128);                               // data[32 .. 35] - timeout - timeout of packet life

    //-------------
    // now append ICMP packet

    int rest = MIN(STING_DGRAM_MAXSIZE - 48 - 2, res);                  // we can store only (STING_DGRAM_MAXSIZE - 48 - 2) = 462 bytes of ICMP packets to fit 512 B
    memcpy(d->data + 48, recvBfr, rest);                                // copy whole ICMP packet beyond the IP_DGRAM structure

    Utils::storeWord(d->data + 52, rawSockHeads.echoId);                // fake this ECHO ID, because linux replaced the ECHO ID when sending ECHO packet
    //--------------
    // epilogue - update stuff, unlock mutex, success!
    d->count = 48 + rest;                                               // update how many bytes this gram contains all together

    icmpDataCount = calcDataByteCountTotal();                           // update icmpDataCount

    Debug::out(LOG_DEBUG, "IcmpWrapper::receive() - icmpDataCount is now %d bytes", icmpDataCount);
    return true;
}