NXP / Mbed 2 deprecated mcr20_wireless_uart

The MCR20A Wireless UART application functions as an wireless UART bridge between two (one-to-one) or several (one to many) boards. The application can be used with both a TERM, or with software that is capable of opening a serial port and writing to or reading from it. The characters sent or received are not necessarily ASCII printable characters.

Dependencies:   fsl_phy_mcr20a fsl_smac mbed-rtos mbed

Fork of mcr20_wireless_uart by Freescale

By default, the application uses broadcast addresses for OTA communication. This way, the application can be directly downloaded and run without any user intervention. The following use case assumes no changes have been done to the project.

  • Two (or more) MCR20A platforms (plugged into the FRDM-K64F Freescale Freedom Development platform) have to be connected to the PC using the mini/micro-USB cables.
  • The code must be downloaded on the platforms via CMSIS-DAP (or other means).
  • After that, two or more TERM applications must be opened, and the serial ports must be configured with the same baud rate as the one in the project (default baud rate is 115200). Other necessary serial configurations are 8 bit, no parity, and 1 stop bit.
  • To start the setup, each platform must be reset, and one of the (user) push buttons found on the MCR20A platform must be pressed. The user can press any of the non-reset buttons on the FRDM-K64F Freescale Freedom Development platform as well. *This initiates the state machine of the application so user can start.

Documentation

SMAC Demo Applications User Guide

Diff: main.cpp

Revision:
19:71b793021c78
Parent:
18:b02fc0e53df8
Child:
23:6f13fea3cace
--- a/main.cpp	Fri Apr 03 05:23:33 2015 +0000
+++ b/main.cpp	Sat Apr 04 22:14:14 2015 +0000
@@ -1,6 +1,28 @@
 #include "mbed.h"
 #include "rtos.h"
 
+#include "SMAC_Interface.h"
+#include "SMAC_Config.h"
+
+static uint8_t mAppSer;
+static uint8_t timePassed;       
+#ifdef VERBOSE
+static bool_t bCCAFailed;
+static bool_t bACKFailed;
+#endif
+static bool_t bTxDone;
+static bool_t bRxDone;
+static bool_t evKeyPressed;
+static bool_t bTxInProgress;
+static uint8_t gau8TxDataBuffer[gMaxSmacSDULength_c  + sizeof(rxPacket_t)];  
+static txPacket_t *gAppTxPacket;
+static rxPacket_t *gAppRxPacket;
+static txContextConfig_t txConfigContext;
+
+void InitProject(void);
+extern smacErrors_t smacToAppMlmeSap(smacToAppMlmeMessage_t* pMsg, instanceId_t instance);
+extern smacErrors_t smacToAppMcpsSap(smacToAppDataMessage_t* pMsg, instanceId_t instance);
+
 DigitalOut led1(LED1);
 InterruptIn sw2(SW2);
 uint32_t button_pressed;
@@ -31,7 +53,23 @@
 {
     Thread thread(led_thread);
     thread2 = new Thread(button_thread);
+    
+    InitSmac();
+    Smac_RegisterSapHandlers((SMAC_APP_MCPS_SapHandler_t)smacToAppMcpsSap,(SMAC_APP_MLME_SapHandler_t)smacToAppMlmeSap,0);
+    
+    InitProject();
 
+    gAppTxPacket = (txPacket_t*)gau8TxDataBuffer;   //Map TX packet to buffer
+    gAppRxPacket = (rxPacket_t*)MEM_BufferAlloc(gMaxSmacSDULength_c + sizeof(rxPacket_t));
+
+    SMACFillHeader(&(gAppTxPacket->smacHeader), gDefaultAddress_c);                  
+    
+    (void)MLMEPAOutputAdjust(gDefaultOutputPower_c);
+    (void)MLMESetChannelRequest(gDefaultChannelNumber_c);         
+    (void)MLMEConfigureTxContext(&txConfigContext);
+    gAppRxPacket->u8MaxDataLength = gMaxSmacSDULength_c;
+    (void)MLMERXEnableRequest(gAppRxPacket, 0);
+    
     button_pressed = 0;
     sw2.fall(&sw2_press);
     while (true) {
@@ -41,3 +79,75 @@
         button_pressed = 0;
     }
 }
+
+smacErrors_t smacToAppMlmeSap(smacToAppMlmeMessage_t* pMsg, instanceId_t instance)
+{
+  switch(pMsg->msgType)
+  {
+  case gMlmeEdCnf_c:
+    printf("EdCnf: \r\n");
+     //(void)OSA_EventSet(&gTaskEvent, gMlme_EdCnf_EVENT_c);
+    break;
+  case gMlmeCcaCnf_c:
+    printf("CcaCnf: \r\n");
+    //(void)OSA_EventSet(&gTaskEvent, gMlme_CcaCnf_EVENT_c);
+    break;
+  case gMlmeTimeoutInd_c:
+    printf("MlmeTimeoutInd: \r\n");
+     //(void)OSA_EventSet(&gTaskEvent, gMlme_TimeoutInd_EVENT_c);
+     break;
+  default:
+    break;
+  }
+  MEM_BufferFree(pMsg);
+  return gErrorNoError_c;
+}
+
+//(Data) Sap handler for managing data confirm and data indication
+smacErrors_t smacToAppMcpsSap(smacToAppDataMessage_t* pMsg, instanceId_t instance)
+{
+  switch(pMsg->msgType)
+  {
+  case gMcpsDataInd_c:
+    if(pMsg->msgData.dataInd.pRxPacket->rxStatus == rxSuccessStatus_c)
+    {
+      printf("McpsDataInd: \r\n");
+      //(void)OSA_EventSet(&gTaskEvent, gMcps_Ind_EVENT_c);
+    }
+    break;
+  case gMcpsDataCnf_c:
+#ifdef VERBOSE
+    if(pMsg->msgData.dataCnf.status == gErrorChannelBusy_c)
+    {
+      bCCAFailed = TRUE;
+    }
+    if(pMsg->msgData.dataCnf.status == gErrorNoAck_c)
+    {
+      bACKFailed = TRUE;
+    }
+#endif
+    printf("McpsDataCnf: \r\n");
+    //(void)OSA_EventSet(&gTaskEvent, gMcps_Cnf_EVENT_c);
+    break;
+  default:
+    break;
+  }
+  MEM_BufferFree(pMsg);
+  return gErrorNoError_c;
+}
+
+void InitProject(void)
+{   
+  /*Global Data init*/
+#ifdef VERBOSE
+  bACKFailed                        = FALSE;
+  bCCAFailed                        = FALSE;
+#endif
+  bTxInProgress                     = FALSE;
+  bTxDone                           = FALSE;
+  evKeyPressed                      = FALSE;
+  txConfigContext.autoAck           = FALSE;
+  txConfigContext.ccaBeforeTx       = FALSE;
+  txConfigContext.retryCountAckFail = 0;
+  txConfigContext.retryCountCCAFail = 0;
+}
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