void PPMin_Init()
{
UART_Stop(); // disable USART1 for GPIO PA9 & PA10 (Trainer Tx(PA9) & Rx(PA10))
/* Enable GPIOA clock. */
rcc_periph_clock_enable(RCC_GPIOA);
/* Enable EXTI interrupt. */
nvic_enable_irq(NVIC_EXTI0_1_IRQ);
/* Set GPIO0 (in GPIO port A) to 'input float'. */
PORT_mode_setup(PPM, GPIO_MODE_INPUT, GPIO_PUPD_NONE);
/* Configure the EXTI subsystem. */
exti_select_source(EXTI0, GPIOA);
exti_set_trigger(EXTI0, EXTI_TRIGGER_RISING);
exti_disable_request(EXTI0);
}
void PPMin_Init()
{
#if _PWM_PIN == GPIO_USART1_TX
UART_Stop(); // disable USART1 for GPIO PA9 & PA10 (Trainer Tx(PA9) & Rx(PA10))
#endif
/* Enable GPIOA clock. */
rcc_peripheral_enable_clock(&RCC_APB2ENR, RCC_APB2ENR_IOPAEN);
/* Enable AFIO clock. */
rcc_peripheral_enable_clock(&RCC_APB2ENR, RCC_APB2ENR_AFIOEN);
/* Enable EXTI interrupt. */
nvic_enable_irq(NVIC_EXTI9_5_IRQ);
/* Set GPIO0 (in GPIO port A) to 'input float'. */
gpio_set_mode(GPIOA, GPIO_MODE_INPUT, GPIO_CNF_INPUT_FLOAT, _PWM_PIN);
/* Configure the EXTI subsystem. */
exti_select_source(_PWM_EXTI, GPIOA);
exti_set_trigger(_PWM_EXTI, EXTI_TRIGGER_RISING);
exti_disable_request(_PWM_EXTI);
}
void PROTO_Stubs(int idx)
{
if (! idx)
return;
CLOCK_StartTimer();
spi_disable();
spi_set_bidirectional_receive_only_mode();
spi_read();
spi_set_unidirectional_mode();
TELEMETRY_SetUpdated();
TELEMETRY_SetType();
UART_Stop();
rcc_peripheral_disable_clock();
_usleep();
MCU_SerialNumber();
USB_Disable();
PROTO_CS_HI();
PROTO_CS_LO();
MUSIC_Beep();
rand32();
}
/*******************************************************************************
* Function Name: UART_Sleep
********************************************************************************
*
* Summary:
* Calls SaveConfig function fucntion for selected mode.
*
* Parameters:
* None
*
* Return:
* None
*
*******************************************************************************/
void UART_Sleep(void)
{
#if(UART_SCB_MODE_UNCONFIG_CONST_CFG)
if(0u != UART_scbEnableWake)
{
if(UART_SCB_MODE_I2C_RUNTM_CFG)
{
UART_I2CSaveConfig();
}
else if(UART_SCB_MODE_SPI_RUNTM_CFG)
{
UART_SpiSaveConfig();
}
else if(UART_SCB_MODE_UART_RUNTM_CFG)
{
UART_UartSaveConfig();
}
else if(UART_SCB_MODE_EZI2C_RUNTM_CFG)
{
UART_EzI2CSaveConfig();
}
else
{
/* Unknown mode: do nothing */
}
}
else
{
UART_backup.enableState = (uint8) UART_GET_CTRL_ENABLED;
if(0u != UART_backup.enableState)
{
UART_Stop();
}
}
UART_DisableTxPinsInputBuffer();
#else
#if defined (UART_I2C_WAKE_ENABLE_CONST) && (UART_I2C_WAKE_ENABLE_CONST)
UART_I2CSaveConfig();
#elif defined (UART_SPI_WAKE_ENABLE_CONST) && (UART_SPI_WAKE_ENABLE_CONST)
UART_SpiSaveConfig();
#elif defined (UART_UART_WAKE_ENABLE_CONST) && (UART_UART_WAKE_ENABLE_CONST)
UART_UartSaveConfig();
#elif defined (UART_EZI2C_WAKE_ENABLE_CONST) && (UART_EZI2C_WAKE_ENABLE_CONST)
UART_EzI2CSaveConfig();
#else
UART_backup.enableState = (uint8) UART_GET_CTRL_ENABLED;
/* Check enable state */
if(0u != UART_backup.enableState)
{
UART_Stop();
}
#endif /* defined (UART_SCB_MODE_I2C_CONST_CFG) && (UART_I2C_WAKE_ENABLE_CONST) */
UART_DisableTxPinsInputBuffer();
#endif /* (UART_SCB_MODE_UNCONFIG_CONST_CFG) */
}
void CyBtldrCommStop (void) {
UART_Stop();
}
/*******************************************************************************
* Function Name: UART_Sleep
********************************************************************************
*
* Summary:
* Prepares the component to enter Deep Sleep.
* The “Enable wakeup from Sleep Mode” selection has an influence on
* this function implementation.
*
* Parameters:
* None
*
* Return:
* None
*
*******************************************************************************/
void UART_Sleep(void)
{
#if(UART_SCB_MODE_UNCONFIG_CONST_CFG)
if(UART_SCB_WAKE_ENABLE_CHECK)
{
if(UART_SCB_MODE_I2C_RUNTM_CFG)
{
UART_I2CSaveConfig();
}
else if(UART_SCB_MODE_EZI2C_RUNTM_CFG)
{
UART_EzI2CSaveConfig();
}
#if(!UART_CY_SCBIP_V1_I2C_ONLY)
else if(UART_SCB_MODE_SPI_RUNTM_CFG)
{
UART_SpiSaveConfig();
}
else if(UART_SCB_MODE_UART_RUNTM_CFG)
{
UART_UartSaveConfig();
}
#endif /* (!UART_CY_SCBIP_V1_I2C_ONLY) */
else
{
/* Unknown mode: do nothing */
}
}
else
{
UART_backup.enableState = (uint8) UART_GET_CTRL_ENABLED;
if(0u != UART_backup.enableState)
{
UART_Stop();
}
}
#else
#if (UART_SCB_MODE_I2C_CONST_CFG && UART_I2C_WAKE_ENABLE_CONST)
UART_I2CSaveConfig();
#elif (UART_SCB_MODE_EZI2C_CONST_CFG && UART_EZI2C_WAKE_ENABLE_CONST)
UART_EzI2CSaveConfig();
#elif (UART_SCB_MODE_SPI_CONST_CFG && UART_SPI_WAKE_ENABLE_CONST)
UART_SpiSaveConfig();
#elif (UART_SCB_MODE_UART_CONST_CFG && UART_UART_WAKE_ENABLE_CONST)
UART_UartSaveConfig();
#else
UART_backup.enableState = (uint8) UART_GET_CTRL_ENABLED;
if(0u != UART_backup.enableState)
{
UART_Stop();
}
#endif /* defined (UART_SCB_MODE_I2C_CONST_CFG) && (UART_I2C_WAKE_ENABLE_CONST) */
#endif /* (UART_SCB_MODE_UNCONFIG_CONST_CFG) */
}
/*******************************************************************************
* Function Name: CyBtldrCommStop
********************************************************************************
*
* Summary:
* Disable the component.
*
* Parameters:
* void
*
* Return:
* void
*
*******************************************************************************/
void CyBtldrCommStop(void)
{
/* Stop UART */
UART_Stop();
}
/*******************************************************************************
* Function Name: AppCallBack
********************************************************************************
*
* Summary:
* Call back function for BLE stack to handle BLESS events
*
* Parameters:
* event - the event generated by stack
* eventParam - the parameters related to the corresponding event
*
* Return:
* None.
*
*******************************************************************************/
void AppCallBack(uint32 event, void *eventParam)
{
CYBLE_GATTC_READ_BY_TYPE_RSP_PARAM_T *readResponse;
CYBLE_GAPC_ADV_REPORT_T *advReport;
CYBLE_GATTC_FIND_BY_TYPE_RSP_PARAM_T *findResponse;
CYBLE_GATTC_FIND_INFO_RSP_PARAM_T *findInfoResponse;
switch (event)
{
case CYBLE_EVT_STACK_ON:
break;
case CYBLE_EVT_GAPC_SCAN_PROGRESS_RESULT:
advReport = (CYBLE_GAPC_ADV_REPORT_T *) eventParam;
/* check if report has manfacturing data corresponding to the intended matching peer */
if((advReport->eventType == CYBLE_GAPC_SCAN_RSP) && (advReport->dataLen == 0x06) \
&& (advReport->data[1] == 0xff) && (advReport->data[2] == 0x31) \
&& (advReport->data[3] == 0x01) && (advReport->data[4] == 0x3b) \
&& (advReport->data[5] == 0x04))
{
peerDeviceFound = true;
memcpy(peerAddr.bdAddr, advReport->peerBdAddr, sizeof(peerAddr.bdAddr));
peerAddr.type = advReport->peerAddrType;
#ifdef PRINT_MESSAGE_LOG
UART_UartPutString("\n\r\n\rServer with matching custom service discovered...");
#endif
}
break;
case CYBLE_EVT_GAP_DEVICE_DISCONNECTED:
/* RESET all flags */
peerDeviceFound = false;
notificationEnabled = false;
infoExchangeState = INFO_EXCHANGE_START;
#ifdef PRINT_MESSAGE_LOG
UART_UartPutString("\n\r DISCONNECTED!!! \n\r ");
while(0 != (UART_SpiUartGetTxBufferSize() + UART_GET_TX_FIFO_SR_VALID));
#endif
/* RESET Uart and flush all buffers */
UART_Stop();
UART_SpiUartClearTxBuffer();
UART_SpiUartClearRxBuffer();
UART_Start();
break;
case CYBLE_EVT_GATTC_READ_BY_TYPE_RSP:
readResponse = (CYBLE_GATTC_READ_BY_TYPE_RSP_PARAM_T *) eventParam;
if(0 == memcmp((uint8 *)&(readResponse->attrData.attrValue[5]), (uint8 *)uartTxAttrUuid, 16))
{
txCharHandle = readResponse->attrData.attrValue[3];
txCharHandle |= (readResponse->attrData.attrValue[4] << 8);
infoExchangeState |= TX_ATTR_HANDLE_FOUND;
}
else if(0 == memcmp((uint8 *)&(readResponse->attrData.attrValue[5]), (uint8 *)uartRxAttrUuid, 16))
{
rxCharHandle = readResponse->attrData.attrValue[3];
rxCharHandle |= (readResponse->attrData.attrValue[4] << 8);
infoExchangeState |= RX_ATTR_HANDLE_FOUND;
}
break;
case CYBLE_EVT_GATTC_FIND_INFO_RSP:
findInfoResponse = (CYBLE_GATTC_FIND_INFO_RSP_PARAM_T *) eventParam;
if((0x29 == findInfoResponse->handleValueList.list[3]) && \
(0x02 == findInfoResponse->handleValueList.list[2]))
{
txCharDescHandle = findInfoResponse->handleValueList.list[0];
txCharDescHandle |= findInfoResponse->handleValueList.list[1] << 8;
infoExchangeState |= TX_CCCD_HANDLE_FOUND;
}
break;
case CYBLE_EVT_GATTC_XCHNG_MTU_RSP:
/*set the 'mtuSize' variable based on the minimum MTU supported by both devices */
if(CYBLE_GATT_MTU > ((CYBLE_GATT_XCHG_MTU_PARAM_T *)eventParam)->mtu)
{
mtuSize = ((CYBLE_GATT_XCHG_MTU_PARAM_T *)eventParam)->mtu;
}
else
{
mtuSize = CYBLE_GATT_MTU;
}
infoExchangeState |= MTU_XCHNG_COMPLETE;
break;
case CYBLE_EVT_GATTC_HANDLE_VALUE_NTF:
HandleUartRxTraffic((CYBLE_GATTC_HANDLE_VALUE_NTF_PARAM_T *)eventParam);
break;
case CYBLE_EVT_GATTC_FIND_BY_TYPE_VALUE_RSP:
findResponse = (CYBLE_GATTC_FIND_BY_TYPE_RSP_PARAM_T *) eventParam;
bleUartServiceHandle = findResponse->range->startHandle;
bleUartServiceEndHandle = findResponse->range->endHandle;
infoExchangeState |= BLE_UART_SERVICE_HANDLE_FOUND;
break;
case CYBLE_EVT_GATTS_XCNHG_MTU_REQ:
/*set the 'mtuSize' variable based on the minimum MTU supported by both devices */
if(CYBLE_GATT_MTU > ((CYBLE_GATT_XCHG_MTU_PARAM_T *)eventParam)->mtu)
{
mtuSize = ((CYBLE_GATT_XCHG_MTU_PARAM_T *)eventParam)->mtu;
}
else
{
mtuSize = CYBLE_GATT_MTU;
}
break;
case CYBLE_EVT_GATTC_WRITE_RSP:
notificationEnabled = true;
#ifdef PRINT_MESSAGE_LOG
UART_UartPutString("\n\rNotifications enabled\n\r");
UART_UartPutString("\n\rStart entering data:\n\r");
#endif
break;
case CYBLE_EVT_GATT_CONNECT_IND:
#ifdef PRINT_MESSAGE_LOG
UART_UartPutString("\n\rConnection established");
#endif
break;
default:
break;
}
}
/*******************************************************************************
* Function Name: UART_UartCyBtldrCommStop
********************************************************************************
*
* Summary:
* Disables the UART component.
*
* Parameters:
* None
*
* Return:
* None
*
*******************************************************************************/
void UART_UartCyBtldrCommStop(void)
{
UART_Stop();
}
void UART_CustomPortDisable(void)
{
UART_Stop();
pinMode(D0, INPUT);
pinMode(D1, INPUT);
}
