aqhomecontrol/aqhome/libtest.c

#ifdef HAVE_CONFIG_H
# include <config.h>
#endif

#include "aqhome/msg/msg_ping.h"
#include "aqhome/msg/endpointmgr.h"
#include "aqhome/msg/endpoint_node.h"
#include "aqhome/msg/endpoint_log.h"
#include "aqhome/msg/endpoint_tty.h"
#include "aqhome/ipc/endpoint_node_ipc_tcpd.h"
#include "aqhome/ipc/endpoint_ipc_tcpc.h"
#include "aqhome/ipc/msg_ipc_ping.h"
#include "aqhome/ipc/msg_ipc_forward.h"
#include "aqhome/ipc/msg_ipc_setaccmsggrps.h"
#include "aqhome/mqtt/endpoint_mqttc.h"
#include "aqhome/mqtt/endpoint2_mqttc.h"
#include "aqhome/mqtt/msg_mqtt_connect.h"
#include "aqhome/mqtt/msg_mqtt_connack.h"
#include "aqhome/mqtt/msg_mqtt_publish.h"
#include "aqhome/mqtt/msg_mqtt_pubresponse.h"
#include "aqhome/mqtt/msg_mqtt_subscribe.h"
#include "aqhome/mqtt/msg_mqtt_suback.h"
#include "aqhome/msgmanager.h"
#include "aqhome/hexfile/hexfile.h"
#include "aqhome/hexfile/flashrecord.h"

#include "aqhome/aqhome.h"

#include <gwenhywfar/debug.h>
#include <gwenhywfar/text.h>
#include <gwenhywfar/gwentime.h>
#include <gwenhywfar/buffer.h>
#include <gwenhywfar/endpoint_tcpd_ipc.h>
#include <gwenhywfar/endpoint_tcpc.h>
#include <gwenhywfar/endpoint_connectable.h>

#include <unistd.h>
#include <time.h>


static int _mqttConnect(GWEN_MSG_ENDPOINT_MGR *emgr, GWEN_MSG_ENDPOINT *epTcp);
static GWEN_MSG *_awaitPacket(GWEN_MSG_ENDPOINT_MGR *emgr, GWEN_MSG_ENDPOINT *epTcp, uint8_t expectedPacketType);

static int _mqttConnect2(GWEN_MSG_ENDPOINT2 *epClient);
static GWEN_MSG *_awaitPacket2(GWEN_MSG_ENDPOINT2 *epClient, uint8_t expectedPacketType);



GWEN_MSG *createPingMsg(uint8_t destAddr, uint8_t srcAddr)
{
  GWEN_MSG *msg;
  int rv;

  msg=GWEN_Msg_new(AQH_MAXMSGSIZE);
  rv=GWEN_Msg_AddByte(msg, destAddr);
  if (rv<0) {
    fprintf(stderr, "ERROR1: %d\n", rv);
    GWEN_Msg_free(msg);
    return NULL;
  }
  rv=GWEN_Msg_AddByte(msg, 6); /* msglen */
  if (rv<0) {
    fprintf(stderr, "ERROR2: %d\n", rv);
    GWEN_Msg_free(msg);
    return NULL;
  }
  rv=GWEN_Msg_AddByte(msg, AQH_MSG_TYPE_PING); /* ping */
  if (rv<0) {
    fprintf(stderr, "ERROR3: %d\n", rv);
    GWEN_Msg_free(msg);
    return NULL;
  }
  rv=GWEN_Msg_AddByte(msg, srcAddr); /* src addr */
  if (rv<0) {
    fprintf(stderr, "ERROR4: %d\n", rv);
    GWEN_Msg_free(msg);
    return NULL;
  }

  rv=GWEN_Msg_AddByte(msg, 0); /* timestamp */
  if (rv<0) {
    fprintf(stderr, "ERROR5: %d\n", rv);
    GWEN_Msg_free(msg);
    return NULL;
  }
  rv=GWEN_Msg_AddByte(msg, 0); /* timestamp */
  if (rv<0) {
    fprintf(stderr, "ERROR6: %d\n", rv);
    GWEN_Msg_free(msg);
    return NULL;
  }
  rv=GWEN_Msg_AddByte(msg, 0); /* timestamp */
  if (rv<0) {
    fprintf(stderr, "ERROR7: %d\n", rv);
    GWEN_Msg_free(msg);
    return NULL;
  }
  rv=GWEN_Msg_AddByte(msg, 0); /* timestamp */
  if (rv<0) {
    fprintf(stderr, "ERROR8: %d\n", rv);
    GWEN_Msg_free(msg);
    return NULL;
  }


  rv=AQH_NodeMsg_AddChecksum(msg);
  if (rv<0) {
    fprintf(stderr, "ERROR9: %d\n", rv);
    GWEN_Msg_free(msg);
    return NULL;
  }

  return msg;
}



int testEndpoints()
{
  int rv;
  GWEN_MSG_ENDPOINT_MGR *emgr;
  GWEN_MSG_ENDPOINT *epTty;
  GWEN_MSG_ENDPOINT *epLog;
  GWEN_MSG_ENDPOINT *epTcp;

  rv=AQH_Init();
  if (rv<0) {
  }

  emgr=AQH_MsgManager_new(0xc0);
  epTty=AQH_TtyNodeEndpoint_new("/dev/ttyUSB0", AQH_MSGMGR_ENDPOINTGROUP_NODE);
  if (epTty==NULL) {
    DBG_ERROR(NULL, "Error creating endpoint TTY");
    return 2;
  }
  GWEN_MsgEndpointMgr_AddEndpoint(emgr, epTty);

  epLog=AQH_LogEndpoint_new("endpoints.log", AQH_MSGMGR_ENDPOINTGROUP_NODE);
  if (epLog==NULL) {
    DBG_ERROR(AQH_LOGDOMAIN, "Error creating endpoint LOG");
    return 2;
  }
  GWEN_MsgEndpointMgr_AddEndpoint(emgr, epLog);

  epTcp=AQH_TcpdIpcNodeEndpoint_new("127.0.0.1", 45454, NULL, AQH_MSGMGR_ENDPOINTGROUP_IPC);
  if (epTcp==NULL) {
    DBG_ERROR(AQH_LOGDOMAIN, "Error creating endpoint TCP");
    return 2;
  }
  GWEN_MsgEndpointMgr_AddEndpoint(emgr, epTcp);

  for (;;) {
    DBG_DEBUG(AQH_LOGDOMAIN, "Next loop");
    AQH_MsgManager_LoopOnce(emgr);
  }
  return 0;
}



int testMsgMqttConnect()
{
  GWEN_MSG *msg;
  GWEN_BUFFER *dbuf;

  msg=GWEN_ConnectMqttMsg_new("MQTT", 4,
                              AQH_MQTTMSG_CONNECT_FLAGS_USERNAME | AQH_MQTTMSG_CONNECT_FLAGS_PASSWD,
                              512,
                              "CLIENTID123",
                              "USER123",
                              "PASSWD123");
  if (msg==NULL) {
    DBG_ERROR(NULL, "Error creating message");
    return 2;
  }
  dbuf=GWEN_Buffer_new(0, 256, 0, 1);
  AQH_ConnectMqttMsg_DumpToBuffer(msg, dbuf, "created");
  fprintf(stdout, "%s\n", GWEN_Buffer_GetStart(dbuf));
  GWEN_Buffer_free(dbuf);

  GWEN_Text_DumpString((const char*) GWEN_Msg_GetConstBuffer(msg), GWEN_Msg_GetBytesInBuffer(msg), 2);

  return 0;
}



int testMqttConnection()
{
  int rv;
  GWEN_MSG_ENDPOINT_MGR *emgr;
  GWEN_MSG_ENDPOINT *epTcp;
  GWEN_MSG *msgOut;

  rv=AQH_Init();
  if (rv<0) {
  }

  emgr=GWEN_MsgEndpointMgr_new();

  epTcp=AQH_MqttClientEndpoint_new("127.0.0.1", 1883, "MQTTClient", 0);
  if (epTcp==NULL) {
    DBG_ERROR(NULL, "Error creating endpoint TCPc");
    return 2;
  }
  GWEN_MsgEndpointMgr_AddEndpoint(emgr, epTcp);

  rv=_mqttConnect(emgr, epTcp);
  if (rv!=0) {
    DBG_ERROR(NULL, "Error connecting");
    return 2;
  }

  fprintf(stdout, "Sending PUBLISH\n");
  //msgOut=GWEN_PublishMqttMsg_new(AQH_MQTTMSG_FLAGS_QOS1, 1, "test/subject1", (const uint8_t*) "29.9", 4);
  msgOut=GWEN_PublishMqttMsg_new(0, 0, "test/subject1", (const uint8_t*) "29.9", 4);
  if (msgOut==NULL) {
    DBG_ERROR(NULL, "Error creating message");
    return 2;
  }
  GWEN_MsgEndpoint_AddSendMessage(epTcp, msgOut);

  fprintf(stdout, "Waiting for response\n");
  for (;;) {
    GWEN_MSG *msg;

    DBG_DEBUG(AQH_LOGDOMAIN, "Next loop");
    //GWEN_MsgManager_LoopOnce(emgr);
    GWEN_MsgEndpointMgr_IoLoopOnce(emgr);
    msg=GWEN_MsgEndpoint_TakeFirstReceivedMessage(epTcp);
    if (msg) {
      if (AQH_MqttMsg_GetMsgTypeAndFlags(msg)==AQH_MQTTMSG_MSGTYPE_PUBACK) {
        GWEN_BUFFER *buf;

        buf=GWEN_Buffer_new(0, 256, 0, 1);
        AQH_PubResponseMqttMsg_DumpToBuffer(msg, buf, "received");
        fprintf(stdout, "%s\n", GWEN_Buffer_GetStart(buf));
        GWEN_Buffer_free(buf);
      }
      else {
        DBG_ERROR(NULL, "Received this message:");
        GWEN_Text_DumpString((const char*) GWEN_Msg_GetConstBuffer(msg), GWEN_Msg_GetBytesInBuffer(msg), 2);
      }
      GWEN_Msg_free(msg);
      break;
    }
  }


  return 0;
}



int testMqttConnection2()
{
  GWEN_MSG_ENDPOINT2 *epClient;
  int loop;

  AQH_Init();

  epClient=AQH_MqttClientEndpoint2_new("TESTCLIENT1234", "127.0.0.1", 1883, NULL, 1);

  for (loop=0;; loop++) {
    DBG_INFO(GWEN_LOGDOMAIN, "Loop %d:", loop);
    GWEN_MsgEndpoint2_IoLoop(epClient, 2000); /* 2000 ms */

    if (GWEN_MsgEndpoint2_GetState(epClient)==GWEN_MSG_ENDPOINT_STATE_CONNECTED) {
      DBG_INFO(AQH_LOGDOMAIN, "Connected.");
      break;
    }
  }
  return 0;
}



int testMqttSubscribe(int argc, char **argv)
{
  int rv;
  GWEN_MSG_ENDPOINT_MGR *emgr;
  GWEN_MSG_ENDPOINT *epTcp;
  GWEN_MSG *msgOut;
  GWEN_MSG *msgIn;
  uint16_t pckId;
  const char *host="127.0.0.1";

  if (argc>1)
    host=argv[1];

  rv=AQH_Init();
  if (rv<0) {
  }

  //emgr=AQH_MsgManager_new(0xc0);
  emgr=GWEN_MsgEndpointMgr_new();

  epTcp=AQH_MqttClientEndpoint_new(host, 1883, "MQTTClient", 0);
  if (epTcp==NULL) {
    DBG_ERROR(NULL, "Error creating endpoint TCPc");
    return 2;
  }
  AQH_MqttClientEndpoint_SetClientId(epTcp, "CLIENTID123");
  GWEN_MsgEndpointMgr_AddEndpoint(emgr, epTcp);

  rv=_mqttConnect(emgr, epTcp);
  if (rv!=0) {
    DBG_ERROR(NULL, "Error connecting");
    return 2;
  }

  fprintf(stdout, "Sending SUBSCRIBE\n");
  pckId=AQH_MqttClientEndpoint_GetNextPacketId(epTcp);
  //msgOut=GWEN_PublishMqttMsg_new(AQH_MQTTMSG_FLAGS_QOS1, 1, "test/subject1", (const uint8_t*) "29.9", 4);
  msgOut=GWEN_SubscribeMqttMsg_new(AQH_MQTTMSG_MSGTYPE_SUBSCRIBE, pckId, "aqhome/#", 0);
  if (msgOut==NULL) {
    DBG_ERROR(NULL, "Error creating message");
    return 2;
  }
        DBG_ERROR(NULL, "Sending this message:");
        GWEN_Text_DumpString((const char*) GWEN_Msg_GetConstBuffer(msgOut), GWEN_Msg_GetBytesInBuffer(msgOut), 2);

  GWEN_MsgEndpoint_AddSendMessage(epTcp, msgOut);

  fprintf(stdout, "Waiting for response\n");
  msgIn=_awaitPacket(emgr, epTcp, AQH_MQTTMSG_MSGTYPE_SUBACK);
  if (msgIn) {
    GWEN_BUFFER *buf;

    buf=GWEN_Buffer_new(0, 256, 0, 1);
    AQH_SubAckMqttMsg_DumpToBuffer(msgIn, buf, "received");
    fprintf(stdout, "%s\n", GWEN_Buffer_GetStart(buf));
    GWEN_Buffer_free(buf);
    GWEN_Msg_free(msgIn);
  }

  for (;;) {
    GWEN_MSG *msg;

    //GWEN_MsgManager_LoopOnce(emgr);
    GWEN_MsgEndpointMgr_IoLoopOnce(emgr);
    msg=GWEN_MsgEndpoint_TakeFirstReceivedMessage(epTcp);
    if (msg) {
      if ((AQH_MqttMsg_GetMsgTypeAndFlags(msg) & 0xf0)==(AQH_MQTTMSG_MSGTYPE_PUBLISH & 0xf0)) {
        GWEN_BUFFER *buf;

        buf=GWEN_Buffer_new(0, 256, 0, 1);
        AQH_PublishMqttMsg_DumpToBuffer(msg, buf, "received");
        fprintf(stdout, "%s\n", GWEN_Buffer_GetStart(buf));
        GWEN_Buffer_free(buf);
      }
      else {
        DBG_ERROR(NULL, "Received this message:");
        GWEN_Text_DumpString((const char*) GWEN_Msg_GetConstBuffer(msg), GWEN_Msg_GetBytesInBuffer(msg), 2);
      }
      GWEN_Msg_free(msg);
    }
  }


  return 0;
}



int testMqttSubscribe2(int argc, char **argv)
{
  GWEN_MSG_ENDPOINT2 *epClient;
  int rv;
  GWEN_MSG *msgOut;
  GWEN_MSG *msgIn;
  uint16_t pckId;
  const char *host="127.0.0.1";

  AQH_Init();

  if (argc>1)
    host=argv[1];

  DBG_ERROR(AQH_LOGDOMAIN, "Connecting to %s (%s)", host, argv[1]);
  epClient=AQH_MqttClientEndpoint2_new("TESTCLIENT1234", host, 1883, NULL, 1);
  rv=_mqttConnect2(epClient);
  if (rv<0) {
    DBG_INFO(AQH_LOGDOMAIN, "here (%d)", rv);
    return 2;
  }

  pckId=AQH_MqttClientEndpoint2_GetNextPacketId(epClient);
  //msgOut=GWEN_PublishMqttMsg_new(AQH_MQTTMSG_FLAGS_QOS1, 1, "test/subject1", (const uint8_t*) "29.9", 4);
  //msgOut=GWEN_SubscribeMqttMsg_new(AQH_MQTTMSG_MSGTYPE_SUBSCRIBE, pckId, "aqhome/#", 0);
  msgOut=GWEN_SubscribeMqttMsg_new(AQH_MQTTMSG_MSGTYPE_SUBSCRIBE, pckId, "#", 0);
  if (msgOut==NULL) {
    DBG_ERROR(NULL, "Error creating message");
    return 2;
  }
  GWEN_MsgEndpoint2_AddSendMessage(epClient, msgOut);

  msgIn=_awaitPacket2(epClient, AQH_MQTTMSG_MSGTYPE_SUBACK);
  if (msgIn) {
    GWEN_BUFFER *buf;

    buf=GWEN_Buffer_new(0, 256, 0, 1);
    AQH_SubAckMqttMsg_DumpToBuffer(msgIn, buf, "received");
    fprintf(stdout, "%s\n", GWEN_Buffer_GetStart(buf));
    GWEN_Buffer_free(buf);
    GWEN_Msg_free(msgIn);
  }

  for (;;) {
    GWEN_MSG *msg;

    GWEN_MsgEndpoint2_IoLoop(epClient, 2000); /* 2000 ms */
    msg=GWEN_MsgEndpoint2_TakeFirstReceivedMessage(epClient);
    if (msg) {
      if ((AQH_MqttMsg_GetMsgTypeAndFlags(msg) & 0xf0)==(AQH_MQTTMSG_MSGTYPE_PUBLISH & 0xf0)) {
        GWEN_BUFFER *buf;

        buf=GWEN_Buffer_new(0, 256, 0, 1);
        AQH_PublishMqttMsg_DumpToBuffer(msg, buf, "received");
        fprintf(stdout, "%s\n", GWEN_Buffer_GetStart(buf));
        GWEN_Buffer_free(buf);
      }
      else {
        DBG_ERROR(NULL, "Received this message:");
        GWEN_Text_DumpString((const char*) GWEN_Msg_GetConstBuffer(msg), GWEN_Msg_GetBytesInBuffer(msg), 2);
      }
      GWEN_Msg_free(msg);
    }
  }


  return 0;
}



int _mqttConnect2(GWEN_MSG_ENDPOINT2 *epClient)
{
  int loop;

  for (loop=0;; loop++) {
    DBG_INFO(GWEN_LOGDOMAIN, "Loop %d:", loop);
    GWEN_MsgEndpoint2_IoLoop(epClient, 2000); /* 2000 ms */

    if (GWEN_MsgEndpoint2_GetState(epClient)==GWEN_MSG_ENDPOINT_STATE_CONNECTED) {
      DBG_INFO(AQH_LOGDOMAIN, "Connected.");
      break;
    }
    else if (GWEN_MsgEndpoint2_GetState(epClient)==GWEN_MSG_ENDPOINT_STATE_UNCONNECTED) {
      DBG_INFO(AQH_LOGDOMAIN, "Disconnected.");
      return GWEN_ERROR_IO;
    }
  }

  return 0;
}



GWEN_MSG *_awaitPacket2(GWEN_MSG_ENDPOINT2 *epClient, uint8_t expectedPacketType)
{
  fprintf(stdout, "Waiting for response\n");
  for (;;) {
    GWEN_MSG *msg;

    DBG_DEBUG(AQH_LOGDOMAIN, "Next loop");
    GWEN_MsgEndpoint2_IoLoop(epClient, 2000); /* 2000 ms */
    msg=GWEN_MsgEndpoint2_TakeFirstReceivedMessage(epClient);
    if (msg) {
      if ((AQH_MqttMsg_GetMsgTypeAndFlags(msg) & 0xf0)==(expectedPacketType & 0xf0)) {
        return msg;
      }
      else {
        DBG_ERROR(NULL, "Received this message:");
        GWEN_Text_DumpString((const char*) GWEN_Msg_GetConstBuffer(msg), GWEN_Msg_GetBytesInBuffer(msg), 2);
      }
    }
  } /* for */

  return NULL;
}






int _mqttConnect(GWEN_MSG_ENDPOINT_MGR *emgr, GWEN_MSG_ENDPOINT *epTcp)
{
  while(GWEN_ConnectableMsgEndpoint_GetState(epTcp)<GWEN_ENDPOINT_MQTTC_STATE_ESTABLISHED) {
    DBG_DEBUG(AQH_LOGDOMAIN, "Next loop");
    GWEN_MsgEndpointMgr_IoLoopOnce(emgr);
    GWEN_MsgEndpointMgr_RunAllEndpoints(emgr);
  }
  return 0;
}



GWEN_MSG *_awaitPacket(GWEN_MSG_ENDPOINT_MGR *emgr, GWEN_MSG_ENDPOINT *epTcp, uint8_t expectedPacketType)
{
  fprintf(stdout, "Waiting for response\n");
  for (;;) {
    GWEN_MSG *msg;

    DBG_DEBUG(AQH_LOGDOMAIN, "Next loop");
    //GWEN_MsgManager_LoopOnce(emgr);
    GWEN_MsgEndpointMgr_IoLoopOnce(emgr);
    msg=GWEN_MsgEndpoint_TakeFirstReceivedMessage(epTcp);
    if (msg) {
      if ((AQH_MqttMsg_GetMsgTypeAndFlags(msg) & 0xf0)==(expectedPacketType & 0xf0)) {
        return msg;
      }
      else {
        DBG_ERROR(NULL, "Received this message:");
        GWEN_Text_DumpString((const char*) GWEN_Msg_GetConstBuffer(msg), GWEN_Msg_GetBytesInBuffer(msg), 2);
      }
    }
  } /* for */

  return NULL;
}



int testIpcConnection()
{
  int rv;
  GWEN_MSG_ENDPOINT_MGR *emgr;
  GWEN_MSG_ENDPOINT *epTcp;
  GWEN_MSG *msgOut;

  rv=AQH_Init();
  if (rv<0) {
  }

  //emgr=AQH_MsgManager_new(0xc0);
  emgr=GWEN_MsgEndpointMgr_new();

  epTcp=AQH_IpcTcpClientEndpoint_new("127.0.0.1", 45454, "IPCClient", 0);
  if (epTcp==NULL) {
    DBG_ERROR(NULL, "Error creating endpoint TCPc");
    return 2;
  }
  GWEN_MsgEndpointMgr_AddEndpoint(emgr, epTcp);

  fprintf(stdout, "Sending SET_ACCEPTABLE_MSG_GROUPS\n");
  msgOut=AQH_SetAcceptedMsgGroupsIpcMsg_new(AQH_MSGTYPE_IPC_SETACCMSGGRPS, AQH_MSG_TYPEGROUP_ALL);
  if (msgOut==NULL) {
    DBG_ERROR(NULL, "Error creating message");
    return 2;
  }
  GWEN_MsgEndpoint_AddSendMessage(epTcp, msgOut);


  fprintf(stdout, "Sending PING\n");
  msgOut=AQH_PingIpcMsg_new(AQH_MSGTYPE_IPC_PING, 2);
  if (msgOut==NULL) {
    DBG_ERROR(NULL, "Error creating message");
    return 2;
  }
  GWEN_MsgEndpoint_AddSendMessage(epTcp, msgOut);

  fprintf(stdout, "Waiting for response\n");
  for (;;) {
    GWEN_MSG *msg;

    DBG_DEBUG(AQH_LOGDOMAIN, "Next loop");
    //GWEN_MsgManager_LoopOnce(emgr);
    GWEN_MsgEndpointMgr_RunAllEndpoints(emgr);
    GWEN_MsgEndpointMgr_IoLoopOnce(emgr);
    msg=GWEN_MsgEndpoint_TakeFirstReceivedMessage(epTcp);
    if (msg) {
      DBG_ERROR(NULL, "Received this message:");
      GWEN_Text_DumpString((const char*) GWEN_Msg_GetConstBuffer(msg), GWEN_Msg_GetBytesInBuffer(msg), 2);
      if (GWEN_IpcMsg_GetCode(msg)==AQH_MSGTYPE_IPC_FORWARD) {
        GWEN_MSG *nodeMsg;

        DBG_ERROR(AQH_LOGDOMAIN, "Received FORWARD msg");
        nodeMsg=AQH_ForwardIpcMsg_GetCopyOfNodeMsg(msg);
        if (nodeMsg) {
          DBG_ERROR(AQH_LOGDOMAIN, "Received node msg (%d)", AQH_NodeMsg_GetMsgType(nodeMsg));
          if (AQH_NodeMsg_GetMsgType(nodeMsg)==AQH_MSG_TYPE_PONG) {
            DBG_ERROR(AQH_LOGDOMAIN, "Received PONG");
            GWEN_Msg_free(msg);
            break;
          }
        }
      }
      GWEN_Msg_free(msg);
    }
  }

  return 0;
}



int testHexfile(int argc, char **argv)
{
  const char *inFilename;
  const char *outFilename;
  AQH_HEXFILE *h;
  int rv;

  if (argc<3) {
    fprintf(stderr, "Missing filenames (in, out)\n");
    return 1;
  }

  rv=AQH_Init();
  if (rv<0) {
  }

  inFilename=argv[1];
  outFilename=argv[2];
  h=AQH_Hexfile_fromFile(inFilename);
  if (h==NULL) {
    fprintf(stderr, "Error reading hexfile \"%s\".\n", inFilename);
    return 2;
  }
  else {
    AQH_HEXFILERECORD_LIST *recordList;
    GWEN_BUFFER *buffer;

    recordList=AQH_Hexfile_GetRecordList(h);
    fprintf(stdout, "INTEL Hexfile read with %d records\n", AQH_HexfileRecord_List_GetCount(recordList));

    buffer=GWEN_Buffer_new(0, 1024, 0, 1);
    AQH_Hexfile_toBuffer(h, buffer);
    rv=GWEN_SyncIo_Helper_WriteFile(outFilename, (const uint8_t*) GWEN_Buffer_GetStart(buffer), GWEN_Buffer_GetUsedBytes(buffer));
    GWEN_Buffer_free(buffer);
    if (rv<0) {
      fprintf(stderr, "ERROR writing outfile \"%s\": %d", outFilename, rv);
      AQH_Hexfile_free(h);
      return 3;
    }
    AQH_Hexfile_free(h);
  }

  return 0;
}



int testFlashRecords(int argc, char **argv)
{
  const char *inFilename;
  AQH_HEXFILE *h;
  int rv;

  if (argc<2) {
    fprintf(stderr, "Missing filename\n");
    return 1;
  }

  rv=AQH_Init();
  if (rv<0) {
  }

  inFilename=argv[1];
  h=AQH_Hexfile_fromFile(inFilename);
  if (h==NULL) {
    fprintf(stderr, "Error reading hexfile \"%s\".\n", inFilename);
    return 2;
  }
  else {
    AQH_HEXFILERECORD_LIST *recordList;
    AQH_FLASHRECORD_LIST *flashRecordList;

    recordList=AQH_Hexfile_GetRecordList(h);
    fprintf(stdout, "INTEL Hexfile read with %d records\n", AQH_HexfileRecord_List_GetCount(recordList));

    flashRecordList=AQH_FlashRecord_fromHexfileRecords(recordList);
    if (flashRecordList==NULL) {
      fprintf(stderr, "ERROR creating flash record list\n");
      AQH_Hexfile_free(h);
      return 3;
    }
    else {
      AQH_FLASHRECORD *fr;

      fprintf(stdout, "Flash record list created with %d records\n", AQH_FlashRecord_List_GetCount(flashRecordList));
      fr=AQH_FlashRecord_List_First(flashRecordList);
      while(fr) {
        fprintf(stdout, "- %08x (%d bytes)\n", AQH_FlashRecord_GetAddress(fr), AQH_FlashRecord_GetDataLength(fr));
        fr=AQH_FlashRecord_List_Next(fr);
      }
    }

    AQH_Hexfile_free(h);
  }

  return 0;
}




int main(int argc, char **argv)
{
  //return testEndpoints();
  //return testMsgMqttConnect();
  //return testMqttConnection();

  //return testIpcConnection();
  //return testHexfile(argc, argv);
  //return testFlashRecords(argc, argv);
  //return testMqttSubscribe(argc, argv);

  //return testMqttConnection2();
  return testMqttSubscribe2(argc, argv);
}