Nigel Leitzell
This program utilizes the mcr20 Thread Shield on the FRDM-K64F MCU which is a two-part workspace (HVAC Server (RX)/Probe(TX)) to handle low temperature events read at the probe(s) to prevent pipes from freezing.
Dependencies: fsl_phy_mcr20a fsl_smac mbed-rtos mbed
Fork of
mcr20_wireless_uart
by 
NXP
main.cpp
- Committer:
- andreikovacs
- Date:
- 2015-06-23
- Revision:
- 26:56ca40dcfae1
- Parent:
- 25:f40bc034cd8b
- Child:
- 27:1eb29717bfd9
File content as of revision 26:56ca40dcfae1:
#include "mbed.h"
#include "rtos.h"
#include "MemManager.h"
#include "Phy.h"
#include "SMAC_Interface.h"
#include "SMAC_Config.h"
#define gMcps_Cnf_EVENT_c (1<<1)
#define gMcps_Ind_EVENT_c (1<<2)
#define gMlme_EdCnf_EVENT_c (1<<3)
#define gMlme_CcaCnf_EVENT_c (1<<4)
#define gMlme_TimeoutInd_EVENT_c (1<<5)
#define gWUSelf_EVENT_c (1<<6)
#ifdef VERBOSE
static bool_t bCCAFailed;
static bool_t bACKFailed;
#endif
uint32_t gTaskEventFlags;
static uint8_t gau8TxDataBuffer[gMaxSmacSDULength_c + sizeof(rxPacket_t)];
txPacket_t *gAppTxPacket;
rxPacket_t *gAppRxPacket;
static txContextConfig_t txConfigContext;
void InitProject(void);
void InitApp(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;
Thread *thread2;
Thread *eventsThread;
void sw2_press(void)
{
thread2->signal_set(0x1);
}
void led_thread(void const *argument)
{
while (true) {
led1 = !led1;
Thread::wait(1000);
}
}
void button_thread(void const *argument)
{
while (true) {
Thread::signal_wait(0x1);
button_pressed++;
}
}
void events_thread(void const *argument)
{
uint8_t rcvd = 0;
while (true)
{
Thread::signal_wait(0x1);
if(gMcps_Cnf_EVENT_c == (gTaskEventFlags & gMcps_Cnf_EVENT_c))
{
//get back in RX
MLMERXEnableRequest(gAppRxPacket, 0);
//printf("McpsDataCnf: Packet sent\r\n");
//fflush(stdout);
}
if(gMcps_Ind_EVENT_c == (gTaskEventFlags & gMcps_Ind_EVENT_c))
{
rcvd = gAppRxPacket->smacPdu.smacPdu[0];
//get back in RX
//gAppRxPacket = (rxPacket_t*)MEM_BufferAlloc(gMaxSmacSDULength_c + sizeof(rxPacket_t));
//gAppRxPacket->u8MaxDataLength = gMaxSmacSDULength_c;
MLMERXEnableRequest(gAppRxPacket, 0);
printf("McpsDataInd: Received %d\r\n", rcvd);
fflush(stdout);
}
if(gMlme_TimeoutInd_EVENT_c == (gTaskEventFlags & gMlme_TimeoutInd_EVENT_c))
{
printf("MlmeTimeoutInd: \r\n");
fflush(stdout);
}
if(gMlme_EdCnf_EVENT_c == (gTaskEventFlags & gMlme_EdCnf_EVENT_c))
{
printf("EdCnf: \r\n");
fflush(stdout);
}
if(gMlme_CcaCnf_EVENT_c == (gTaskEventFlags & gMlme_CcaCnf_EVENT_c))
{
printf("CcaCnf: \r\n");
fflush(stdout);
}
if(gWUSelf_EVENT_c == (gTaskEventFlags & gWUSelf_EVENT_c))
{
}
gTaskEventFlags = 0;
}
}
int main()
{
MEM_Init();
Thread thread(led_thread);
thread2 = new Thread(button_thread);
eventsThread = new Thread(events_thread);
Phy_Init();
InitSmac();
//Tell SMAC who to call when it needs to pass a message to the application thread.
Smac_RegisterSapHandlers((SMAC_APP_MCPS_SapHandler_t)smacToAppMcpsSap,(SMAC_APP_MLME_SapHandler_t)smacToAppMlmeSap,0);
InitApp();
button_pressed = 0;
sw2.fall(&sw2_press);
while (true) {
Thread::wait(5000);
gAppTxPacket->smacPdu.smacPdu[0] = (uint8_t)button_pressed;
gAppTxPacket->u8DataLength = 1;
(void)MLMERXDisableRequest();
(void)MCPSDataRequest(gAppTxPacket);
printf("SW2 was pressed (last 5 seconds): %d \r\n", button_pressed);
fflush(stdout);
button_pressed = 0;
}
}
void InitApp()
{
gAppTxPacket = (txPacket_t*)gau8TxDataBuffer; //Map TX packet to buffer
gAppRxPacket = (rxPacket_t*)MEM_BufferAlloc(gMaxSmacSDULength_c + sizeof(rxPacket_t));
InitProject();
SMACFillHeader(&(gAppTxPacket->smacHeader), gDefaultAddress_c);
(void)MLMEPAOutputAdjust(gDefaultOutputPower_c);
(void)MLMESetChannelRequest(gDefaultChannelNumber_c);
(void)MLMEConfigureTxContext(&txConfigContext);
//AppDelayTmr = TMR_AllocateTimer();
gAppRxPacket->u8MaxDataLength = gMaxSmacSDULength_c;
(void)MLMERXEnableRequest(gAppRxPacket, 0);
}
/* (Management) Sap handler for managing timeout indication and ED confirm
This is running in INTERRUPT context, so need to send messages to one of the task */
smacErrors_t smacToAppMlmeSap(smacToAppMlmeMessage_t* pMsg, instanceId_t instance)
{
switch(pMsg->msgType)
{
case gMlmeEdCnf_c:
gTaskEventFlags |= gMlme_EdCnf_EVENT_c;
break;
case gMlmeCcaCnf_c:
gTaskEventFlags |= gMlme_CcaCnf_EVENT_c;
break;
case gMlmeTimeoutInd_c:
gTaskEventFlags |= gMlme_TimeoutInd_EVENT_c;
break;
default:
break;
}
eventsThread->signal_set(0x1);
MEM_BufferFree(pMsg);
return gErrorNoError_c;
}
/* (Data) Sap handler for managing data confirm and data indication
This is running in INTERRUPT context, so need to send messages to one of the task */
smacErrors_t smacToAppMcpsSap(smacToAppDataMessage_t* pMsg, instanceId_t instance)
{
switch(pMsg->msgType)
{
case gMcpsDataInd_c:
if(pMsg->msgData.dataInd.pRxPacket->rxStatus == rxSuccessStatus_c)
{
gTaskEventFlags |= 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
gTaskEventFlags |= gMcps_Cnf_EVENT_c;
break;
default:
break;
}
eventsThread->signal_set(0x1);
MEM_BufferFree(pMsg);
return gErrorNoError_c;
}
void InitProject(void)
{
/*Global Data init*/
#ifdef VERBOSE
bACKFailed = FALSE;
bCCAFailed = FALSE;
#endif
gTaskEventFlags = 0;
txConfigContext.autoAck = FALSE;
txConfigContext.ccaBeforeTx = FALSE;
txConfigContext.retryCountAckFail = 0;
txConfigContext.retryCountCCAFail = 0;
}