blob: bf90abec72e19add6d6d53d8bc800f38bfc5a2fc [file] [log] [blame]
/*
* Copyright 2018-2020 NXP
* All rights reserved.
*
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include "fsl_common.h"
#include <string.h>
#include "serial_manager.h"
#include "serial_port_internal.h"
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
#include "generic_list.h"
/*
* The OSA_USED macro can only be defined when the OSA component is used.
* If the source code of the OSA component does not exist, the OSA_USED cannot be defined.
* OR, If OSA component is not added into project event the OSA source code exists, the OSA_USED
* also cannot be defined.
* The source code path of the OSA component is <MCUXpresso_SDK>/components/osa.
*
*/
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
#include "common_task.h"
#else
#include "fsl_os_abstraction.h"
#endif
#endif
#endif
/*******************************************************************************
* Definitions
******************************************************************************/
#ifndef NDEBUG
#if (defined(DEBUG_CONSOLE_ASSERT_DISABLE) && (DEBUG_CONSOLE_ASSERT_DISABLE > 0U))
#undef assert
#define assert(n)
#endif
#endif
#define SERIAL_EVENT_DATA_RECEIVED (1U << 0)
#define SERIAL_EVENT_DATA_SENT (1U << 1)
#define SERIAL_MANAGER_WRITE_TAG 0xAABB5754U
#define SERIAL_MANAGER_READ_TAG 0xBBAA5244U
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
typedef enum _serial_manager_transmission_mode
{
kSerialManager_TransmissionBlocking = 0x0U, /*!< Blocking transmission*/
kSerialManager_TransmissionNonBlocking = 0x1U, /*!< None blocking transmission*/
} serial_manager_transmission_mode_t;
/* TX transfer structure */
typedef struct _serial_manager_transfer
{
uint8_t *buffer;
volatile uint32_t length;
volatile uint32_t soFar;
serial_manager_transmission_mode_t mode;
serial_manager_status_t status;
} serial_manager_transfer_t;
#endif
/* write handle structure */
typedef struct _serial_manager_send_handle
{
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
list_element_t link; /*!< list element of the link */
serial_manager_transfer_t transfer;
#endif
struct _serial_manager_handle *serialManagerHandle;
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
serial_manager_callback_t callback;
void *callbackParam;
uint32_t tag;
#endif
} serial_manager_write_handle_t;
typedef serial_manager_write_handle_t serial_manager_read_handle_t;
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
/* receive state structure */
typedef struct _serial_manager_read_ring_buffer
{
uint8_t *ringBuffer;
uint32_t ringBufferSize;
volatile uint32_t ringHead;
volatile uint32_t ringTail;
} serial_manager_read_ring_buffer_t;
#endif
#if defined(__CC_ARM)
#pragma anon_unions
#endif
/* The serial manager handle structure */
typedef struct _serial_manager_handle
{
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
list_label_t runningWriteHandleHead; /*!< The queue of running write handle */
list_label_t completedWriteHandleHead; /*!< The queue of completed write handle */
#endif
serial_manager_read_handle_t *volatile openedReadHandleHead;
volatile uint32_t openedWriteHandleCount;
union
{
uint32_t lowLevelhandleBuffer[1];
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
uint8_t uartHandleBuffer[SERIAL_PORT_UART_HANDLE_SIZE];
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
uint8_t usbcdcHandleBuffer[SERIAL_PORT_USB_CDC_HANDLE_SIZE];
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
uint8_t swoHandleBuffer[SERIAL_PORT_SWO_HANDLE_SIZE];
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
uint8_t usbcdcVirtualHandleBuffer[SERIAL_PORT_USB_VIRTUAL_HANDLE_SIZE];
#endif
};
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
serial_manager_read_ring_buffer_t ringBuffer;
#endif
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
common_task_message_t commontaskMsg;
#else
OSA_EVENT_HANDLE_DEFINE(event); /*!< Event instance */
OSA_TASK_HANDLE_DEFINE(taskId); /*!< Task handle */
#endif
#endif
#endif
serial_port_type_t type;
} serial_manager_handle_t;
/*******************************************************************************
* Prototypes
******************************************************************************/
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
static void SerialManager_Task(void *param);
#endif
/*******************************************************************************
* Variables
******************************************************************************/
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
#else
/*
* \brief Defines the serial manager task's stack
*/
OSA_TASK_DEFINE(SerialManager_Task, SERIAL_MANAGER_TASK_PRIORITY, 1, SERIAL_MANAGER_TASK_STACK_SIZE, false);
#endif
#endif
#endif
/*******************************************************************************
* Code
******************************************************************************/
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
static void SerialManager_AddTail(list_label_t *queue, serial_manager_write_handle_t *node)
{
(void)LIST_AddTail(queue, &node->link);
}
static void SerialManager_RemoveHead(list_label_t *queue)
{
(void)LIST_RemoveHead(queue);
}
#endif
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
static serial_manager_status_t SerialManager_StartWriting(serial_manager_handle_t *handle)
{
serial_manager_status_t status = kStatus_SerialManager_Error;
serial_manager_write_handle_t *writeHandle =
(serial_manager_write_handle_t *)(void *)LIST_GetHead(&handle->runningWriteHandleHead);
if (writeHandle != NULL)
{
switch (handle->type)
{
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
case kSerialPort_Uart:
status = Serial_UartWrite(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
writeHandle->transfer.buffer, writeHandle->transfer.length);
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
case kSerialPort_UsbCdc:
status = Serial_UsbCdcWrite(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
writeHandle->transfer.buffer, writeHandle->transfer.length);
break;
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
case kSerialPort_Swo:
status = Serial_SwoWrite(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
writeHandle->transfer.buffer, writeHandle->transfer.length);
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
case kSerialPort_UsbCdcVirtual:
status = Serial_UsbCdcVirtualWrite(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
writeHandle->transfer.buffer, writeHandle->transfer.length);
break;
#endif
default:
status = kStatus_SerialManager_Error;
break;
}
}
return status;
}
static serial_manager_status_t SerialManager_StartReading(serial_manager_handle_t *handle,
serial_manager_read_handle_t *readHandle,
uint8_t *buffer,
uint32_t length)
{
serial_manager_status_t status = kStatus_SerialManager_Error;
if (NULL != readHandle)
{
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
if (handle->type == kSerialPort_UsbCdc)
{
status = Serial_UsbCdcRead(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
if (handle->type == kSerialPort_UsbCdcVirtual)
{
status = Serial_UsbCdcVirtualRead(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
#endif
}
return status;
}
#else /*SERIAL_MANAGER_NON_BLOCKING_MODE > 0U*/
static serial_manager_status_t SerialManager_StartWriting(serial_manager_handle_t *handle,
serial_manager_write_handle_t *writeHandle,
uint8_t *buffer,
uint32_t length)
{
serial_manager_status_t status = kStatus_SerialManager_Error;
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
if (kSerialPort_Uart == handle->type) /* Serial port UART */
{
status = Serial_UartWrite(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
else
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
if (kSerialPort_UsbCdc == handle->type) /* Serial port UsbCdc */
{
status = Serial_UsbCdcWrite(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
else
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
if (kSerialPort_Swo == handle->type) /* Serial port SWO */
{
status = Serial_SwoWrite(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
else
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
if (kSerialPort_UsbCdcVirtual == handle->type) /* Serial port UsbCdcVirtual */
{
status = Serial_UsbCdcVirtualWrite(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
else
#endif
{
/*MISRA rule*/
}
return status;
}
static serial_manager_status_t SerialManager_StartReading(serial_manager_handle_t *handle,
serial_manager_read_handle_t *readHandle,
uint8_t *buffer,
uint32_t length)
{
serial_manager_status_t status = kStatus_SerialManager_Error;
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
if (kSerialPort_Uart == handle->type) /* Serial port UART */
{
status = Serial_UartRead(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
else
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
if (kSerialPort_UsbCdc == handle->type) /* Serial port UsbCdc */
{
status = Serial_UsbCdcRead(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
else
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
if (kSerialPort_Swo == handle->type) /* Serial port SWO */
{
status = Serial_SwoRead(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
else
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
if (kSerialPort_UsbCdcVirtual == handle->type) /* Serial port UsbCdcVirtual */
{
status = Serial_UsbCdcVirtualRead(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), buffer, length);
}
#endif
{
/*MISRA rule*/
}
return status;
}
#endif /*SERIAL_MANAGER_NON_BLOCKING_MODE > 0U*/
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
static void SerialManager_IsrFunction(serial_manager_handle_t *handle)
{
uint32_t regPrimask = DisableGlobalIRQ();
switch (handle->type)
{
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
case kSerialPort_Uart:
Serial_UartIsrFunction(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
case kSerialPort_UsbCdc:
Serial_UsbCdcIsrFunction(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
case kSerialPort_Swo:
Serial_SwoIsrFunction(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
case kSerialPort_UsbCdcVirtual:
Serial_UsbCdcVirtualIsrFunction(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
default:
/*MISRA rule 16.4*/
break;
}
EnableGlobalIRQ(regPrimask);
}
static void SerialManager_Task(void *param)
{
serial_manager_handle_t *handle = (serial_manager_handle_t *)param;
serial_manager_write_handle_t *serialWriteHandle;
serial_manager_read_handle_t *serialReadHandle;
uint32_t primask;
serial_manager_callback_message_t msg;
if (NULL != handle)
{
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
#else
osa_event_flags_t ev = 0;
do
{
if (KOSA_StatusSuccess ==
OSA_EventWait((osa_event_handle_t)handle->event, osaEventFlagsAll_c, false, osaWaitForever_c, &ev))
{
if (ev & SERIAL_EVENT_DATA_SENT)
#endif
#endif
{
serialWriteHandle =
(serial_manager_write_handle_t *)(void *)LIST_GetHead(&handle->completedWriteHandleHead);
while (NULL != serialWriteHandle)
{
SerialManager_RemoveHead(&handle->completedWriteHandleHead);
msg.buffer = serialWriteHandle->transfer.buffer;
msg.length = serialWriteHandle->transfer.soFar;
serialWriteHandle->transfer.buffer = NULL;
if (NULL != serialWriteHandle->callback)
{
serialWriteHandle->callback(serialWriteHandle->callbackParam, &msg,
serialWriteHandle->transfer.status);
}
serialWriteHandle =
(serial_manager_write_handle_t *)(void *)LIST_GetHead(&handle->completedWriteHandleHead);
}
}
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
#else
if (ev & SERIAL_EVENT_DATA_RECEIVED)
#endif
#endif
{
primask = DisableGlobalIRQ();
serialReadHandle = handle->openedReadHandleHead;
EnableGlobalIRQ(primask);
if (NULL != serialReadHandle)
{
if (NULL != serialReadHandle->transfer.buffer)
{
if (serialReadHandle->transfer.soFar >= serialReadHandle->transfer.length)
{
msg.buffer = serialReadHandle->transfer.buffer;
msg.length = serialReadHandle->transfer.soFar;
serialReadHandle->transfer.buffer = NULL;
if (NULL != serialReadHandle->callback)
{
serialReadHandle->callback(serialReadHandle->callbackParam, &msg,
serialReadHandle->transfer.status);
}
}
}
}
}
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
#else
}
} while (gUseRtos_c);
#endif
#endif
}
}
#endif
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
static void SerialManager_TxCallback(void *callbackParam,
serial_manager_callback_message_t *message,
serial_manager_status_t status)
{
serial_manager_handle_t *handle;
serial_manager_write_handle_t *writeHandle;
assert(callbackParam);
assert(message);
handle = (serial_manager_handle_t *)callbackParam;
writeHandle = (serial_manager_write_handle_t *)(void *)LIST_GetHead(&handle->runningWriteHandleHead);
if (NULL != writeHandle)
{
SerialManager_RemoveHead(&handle->runningWriteHandleHead);
(void)SerialManager_StartWriting(handle);
writeHandle->transfer.soFar = message->length;
writeHandle->transfer.status = status;
if (kSerialManager_TransmissionNonBlocking == writeHandle->transfer.mode)
{
SerialManager_AddTail(&handle->completedWriteHandleHead, writeHandle);
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
handle->commontaskMsg.callback = SerialManager_Task;
handle->commontaskMsg.callbackParam = handle;
COMMON_TASK_post_message(&handle->commontaskMsg);
#else
(void)OSA_EventSet((osa_event_handle_t)handle->event, SERIAL_EVENT_DATA_SENT);
#endif
#else
SerialManager_Task(handle);
#endif
}
else
{
writeHandle->transfer.buffer = NULL;
}
}
}
static void SerialManager_RxCallback(void *callbackParam,
serial_manager_callback_message_t *message,
serial_manager_status_t status)
{
serial_manager_handle_t *handle;
uint32_t ringBufferLength;
uint32_t primask;
assert(callbackParam);
assert(message);
handle = (serial_manager_handle_t *)callbackParam;
status = kStatus_SerialManager_Notify;
for (uint32_t i = 0; i < message->length; i++)
{
handle->ringBuffer.ringBuffer[handle->ringBuffer.ringHead++] = message->buffer[i];
if (handle->ringBuffer.ringHead >= handle->ringBuffer.ringBufferSize)
{
handle->ringBuffer.ringHead = 0U;
}
if (handle->ringBuffer.ringHead == handle->ringBuffer.ringTail)
{
status = kStatus_SerialManager_RingBufferOverflow;
handle->ringBuffer.ringTail++;
if (handle->ringBuffer.ringTail >= handle->ringBuffer.ringBufferSize)
{
handle->ringBuffer.ringTail = 0U;
}
}
}
ringBufferLength = handle->ringBuffer.ringHead + handle->ringBuffer.ringBufferSize - handle->ringBuffer.ringTail;
ringBufferLength = ringBufferLength % handle->ringBuffer.ringBufferSize;
primask = DisableGlobalIRQ();
if ((NULL != handle->openedReadHandleHead) && (NULL != handle->openedReadHandleHead->transfer.buffer))
{
if (handle->openedReadHandleHead->transfer.length > handle->openedReadHandleHead->transfer.soFar)
{
uint32_t remainLength =
handle->openedReadHandleHead->transfer.length - handle->openedReadHandleHead->transfer.soFar;
for (uint32_t i = 0; i < MIN(ringBufferLength, remainLength); i++)
{
handle->openedReadHandleHead->transfer.buffer[handle->openedReadHandleHead->transfer.soFar] =
handle->ringBuffer.ringBuffer[handle->ringBuffer.ringTail];
handle->ringBuffer.ringTail++;
handle->openedReadHandleHead->transfer.soFar++;
if (handle->ringBuffer.ringTail >= handle->ringBuffer.ringBufferSize)
{
handle->ringBuffer.ringTail = 0U;
}
}
ringBufferLength = ringBufferLength - MIN(ringBufferLength, remainLength);
}
if (handle->openedReadHandleHead->transfer.length > handle->openedReadHandleHead->transfer.soFar)
{
}
else
{
if (kSerialManager_TransmissionBlocking == handle->openedReadHandleHead->transfer.mode)
{
handle->openedReadHandleHead->transfer.buffer = NULL;
}
else
{
handle->openedReadHandleHead->transfer.status = kStatus_SerialManager_Success;
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
handle->commontaskMsg.callback = SerialManager_Task;
handle->commontaskMsg.callbackParam = handle;
COMMON_TASK_post_message(&handle->commontaskMsg);
#else
(void)OSA_EventSet((osa_event_handle_t)handle->event, SERIAL_EVENT_DATA_RECEIVED);
#endif
#else
SerialManager_Task(handle);
#endif
}
}
}
if (0U != ringBufferLength)
{
message->buffer = NULL;
message->length = ringBufferLength;
if ((NULL != handle->openedReadHandleHead) && (NULL != handle->openedReadHandleHead->callback))
{
handle->openedReadHandleHead->callback(handle->openedReadHandleHead->callbackParam, message, status);
}
}
ringBufferLength = handle->ringBuffer.ringBufferSize - 1U - ringBufferLength;
if (NULL != handle->openedReadHandleHead)
{
(void)SerialManager_StartReading(handle, handle->openedReadHandleHead, NULL, ringBufferLength);
}
EnableGlobalIRQ(primask);
}
static serial_manager_status_t SerialManager_Write(serial_write_handle_t writeHandle,
uint8_t *buffer,
uint32_t length,
serial_manager_transmission_mode_t mode)
{
serial_manager_write_handle_t *serialWriteHandle;
serial_manager_handle_t *handle;
serial_manager_status_t status = kStatus_SerialManager_Success;
uint32_t primask;
uint8_t isEmpty = 0U;
assert(writeHandle);
assert(buffer);
assert(length);
serialWriteHandle = (serial_manager_write_handle_t *)writeHandle;
handle = serialWriteHandle->serialManagerHandle;
assert(handle);
assert(SERIAL_MANAGER_WRITE_TAG == serialWriteHandle->tag);
assert(!((kSerialManager_TransmissionNonBlocking == mode) && (NULL == serialWriteHandle->callback)));
primask = DisableGlobalIRQ();
if (NULL != serialWriteHandle->transfer.buffer)
{
EnableGlobalIRQ(primask);
return kStatus_SerialManager_Busy;
}
serialWriteHandle->transfer.buffer = buffer;
serialWriteHandle->transfer.length = length;
serialWriteHandle->transfer.soFar = 0U;
serialWriteHandle->transfer.mode = mode;
if (NULL == LIST_GetHead(&handle->runningWriteHandleHead))
{
isEmpty = 1U;
}
SerialManager_AddTail(&handle->runningWriteHandleHead, serialWriteHandle);
EnableGlobalIRQ(primask);
if (0U != isEmpty)
{
status = SerialManager_StartWriting(handle);
if ((serial_manager_status_t)kStatus_SerialManager_Success != status)
{
#if (USB_CDC_SERIAL_MANAGER_RUN_NO_HOST == 1)
if (status == kStatus_SerialManager_NotConnected)
{
SerialManager_RemoveHead(&handle->runningWriteHandleHead);
serialWriteHandle->transfer.buffer = 0;
serialWriteHandle->transfer.length = 0;
}
#endif /* USB_CDC_SERIAL_MANAGER_RUN_NO_HOST == 1 */
return status;
}
}
if (kSerialManager_TransmissionBlocking == mode)
{
while (serialWriteHandle->transfer.length > serialWriteHandle->transfer.soFar)
{
#if defined(__GIC_PRIO_BITS)
if (0x13 == (__get_CPSR() & CPSR_M_Msk))
#else
if (0U != __get_IPSR())
#endif
{
SerialManager_IsrFunction(handle);
}
}
}
return kStatus_SerialManager_Success;
}
static serial_manager_status_t SerialManager_Read(serial_read_handle_t readHandle,
uint8_t *buffer,
uint32_t length,
serial_manager_transmission_mode_t mode,
uint32_t *receivedLength)
{
serial_manager_read_handle_t *serialReadHandle;
serial_manager_handle_t *handle;
uint32_t dataLength;
uint32_t primask;
assert(readHandle);
assert(buffer);
assert(length);
serialReadHandle = (serial_manager_read_handle_t *)readHandle;
handle = serialReadHandle->serialManagerHandle;
assert(handle);
assert(SERIAL_MANAGER_READ_TAG == serialReadHandle->tag);
assert(!((kSerialManager_TransmissionNonBlocking == mode) && (NULL == serialReadHandle->callback)));
primask = DisableGlobalIRQ();
if (NULL != serialReadHandle->transfer.buffer)
{
EnableGlobalIRQ(primask);
return kStatus_SerialManager_Busy;
}
serialReadHandle->transfer.buffer = buffer;
serialReadHandle->transfer.length = length;
serialReadHandle->transfer.soFar = 0U;
serialReadHandle->transfer.mode = mode;
dataLength = handle->ringBuffer.ringHead + handle->ringBuffer.ringBufferSize - handle->ringBuffer.ringTail;
dataLength = dataLength % handle->ringBuffer.ringBufferSize;
for (serialReadHandle->transfer.soFar = 0U; serialReadHandle->transfer.soFar < MIN(dataLength, length);
serialReadHandle->transfer.soFar++)
{
buffer[serialReadHandle->transfer.soFar] = handle->ringBuffer.ringBuffer[handle->ringBuffer.ringTail];
handle->ringBuffer.ringTail++;
if (handle->ringBuffer.ringTail >= handle->ringBuffer.ringBufferSize)
{
handle->ringBuffer.ringTail = 0U;
}
}
dataLength = handle->ringBuffer.ringHead + handle->ringBuffer.ringBufferSize - handle->ringBuffer.ringTail;
dataLength = dataLength % handle->ringBuffer.ringBufferSize;
dataLength = handle->ringBuffer.ringBufferSize - 1U - dataLength;
(void)SerialManager_StartReading(handle, readHandle, NULL, dataLength);
if (NULL != receivedLength)
{
*receivedLength = serialReadHandle->transfer.soFar;
serialReadHandle->transfer.buffer = NULL;
EnableGlobalIRQ(primask);
}
else
{
if (serialReadHandle->transfer.soFar >= serialReadHandle->transfer.length)
{
serialReadHandle->transfer.buffer = NULL;
EnableGlobalIRQ(primask);
if (kSerialManager_TransmissionNonBlocking == mode)
{
if (NULL != serialReadHandle->callback)
{
serial_manager_callback_message_t msg;
msg.buffer = buffer;
msg.length = serialReadHandle->transfer.soFar;
serialReadHandle->callback(serialReadHandle->callbackParam, &msg, kStatus_SerialManager_Success);
}
}
}
else
{
EnableGlobalIRQ(primask);
}
if (kSerialManager_TransmissionBlocking == mode)
{
while (serialReadHandle->transfer.length > serialReadHandle->transfer.soFar)
{
}
}
}
return kStatus_SerialManager_Success;
}
#else
static serial_manager_status_t SerialManager_Write(serial_write_handle_t writeHandle, uint8_t *buffer, uint32_t length)
{
serial_manager_write_handle_t *serialWriteHandle;
serial_manager_handle_t *handle;
assert(writeHandle);
assert(buffer);
assert(length);
serialWriteHandle = (serial_manager_write_handle_t *)writeHandle;
handle = serialWriteHandle->serialManagerHandle;
assert(handle);
return SerialManager_StartWriting(handle, serialWriteHandle, buffer, length);
}
static serial_manager_status_t SerialManager_Read(serial_read_handle_t readHandle, uint8_t *buffer, uint32_t length)
{
serial_manager_read_handle_t *serialReadHandle;
serial_manager_handle_t *handle;
assert(readHandle);
assert(buffer);
assert(length);
serialReadHandle = (serial_manager_read_handle_t *)readHandle;
handle = serialReadHandle->serialManagerHandle;
assert(handle);
return SerialManager_StartReading(handle, serialReadHandle, buffer, length);
}
#endif
serial_manager_status_t SerialManager_Init(serial_handle_t serialHandle, serial_manager_config_t *config)
{
serial_manager_handle_t *handle;
serial_manager_status_t status = kStatus_SerialManager_Error;
assert(config);
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
assert(config->ringBuffer);
assert(config->ringBufferSize);
#endif
assert(serialHandle);
assert(SERIAL_MANAGER_HANDLE_SIZE >= sizeof(serial_manager_handle_t));
handle = (serial_manager_handle_t *)serialHandle;
(void)memset(handle, 0, SERIAL_MANAGER_HANDLE_SIZE);
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
COMMON_TASK_init();
#else
if (KOSA_StatusSuccess != OSA_EventCreate((osa_event_handle_t)handle->event, true))
{
return kStatus_SerialManager_Error;
}
if (KOSA_StatusSuccess != OSA_TaskCreate((osa_task_handle_t)handle->taskId, OSA_TASK(SerialManager_Task), handle))
{
return kStatus_SerialManager_Error;
}
#endif
#endif
#endif
handle->type = config->type;
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
handle->ringBuffer.ringBuffer = config->ringBuffer;
handle->ringBuffer.ringBufferSize = config->ringBufferSize;
#endif
switch (config->type)
{
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
case kSerialPort_Uart:
status = Serial_UartInit(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), config->portConfig);
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
if ((serial_manager_status_t)kStatus_SerialManager_Success == status)
{
status = Serial_UartInstallTxCallback(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
SerialManager_TxCallback, handle);
if ((serial_manager_status_t)kStatus_SerialManager_Success == status)
{
status = Serial_UartInstallRxCallback(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
SerialManager_RxCallback, handle);
}
}
#endif
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
case kSerialPort_UsbCdc:
status = Serial_UsbCdcInit(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), config->portConfig);
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
if (kStatus_SerialManager_Success == status)
{
status = Serial_UsbCdcInstallTxCallback(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
SerialManager_TxCallback, handle);
if (kStatus_SerialManager_Success == status)
{
status = Serial_UsbCdcInstallRxCallback(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
SerialManager_RxCallback, handle);
}
}
#endif
break;
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
case kSerialPort_Swo:
status = Serial_SwoInit(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), config->portConfig);
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
if (kStatus_SerialManager_Success == status)
{
status = Serial_SwoInstallTxCallback(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
SerialManager_TxCallback, handle);
}
#endif
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
case kSerialPort_UsbCdcVirtual:
status = Serial_UsbCdcVirtualInit(((serial_handle_t)&handle->lowLevelhandleBuffer[0]), config->portConfig);
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
if (kStatus_SerialManager_Success == status)
{
status = Serial_UsbCdcVirtualInstallTxCallback(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
SerialManager_TxCallback, handle);
if (kStatus_SerialManager_Success == status)
{
status = Serial_UsbCdcVirtualInstallRxCallback(((serial_handle_t)&handle->lowLevelhandleBuffer[0]),
SerialManager_RxCallback, handle);
}
}
#endif
break;
#endif
default:
/*MISRA rule 16.4*/
break;
}
return status;
}
serial_manager_status_t SerialManager_Deinit(serial_handle_t serialHandle)
{
serial_manager_handle_t *handle;
uint32_t primask;
assert(serialHandle);
handle = (serial_manager_handle_t *)serialHandle;
primask = DisableGlobalIRQ();
if ((NULL != handle->openedReadHandleHead) || (0U != handle->openedWriteHandleCount))
{
EnableGlobalIRQ(primask);
return kStatus_SerialManager_Busy;
}
EnableGlobalIRQ(primask);
switch (handle->type)
{
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
case kSerialPort_Uart:
(void)Serial_UartDeinit(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
case kSerialPort_UsbCdc:
(void)Serial_UsbCdcDeinit(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
case kSerialPort_Swo:
(void)Serial_SwoDeinit(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
case kSerialPort_UsbCdcVirtual:
(void)Serial_UsbCdcVirtualDeinit(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
default:
/*MISRA rule 16.4*/
break;
}
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
#else
OSA_EventDestroy((osa_event_handle_t)handle->event);
OSA_TaskDestroy((osa_task_handle_t)handle->taskId);
#endif
#endif
#endif
return kStatus_SerialManager_Success;
}
serial_manager_status_t SerialManager_OpenWriteHandle(serial_handle_t serialHandle, serial_write_handle_t writeHandle)
{
serial_manager_handle_t *handle;
serial_manager_write_handle_t *serialWriteHandle;
uint32_t primask;
assert(serialHandle);
assert(writeHandle);
assert(SERIAL_MANAGER_WRITE_HANDLE_SIZE >= sizeof(serial_manager_write_handle_t));
handle = (serial_manager_handle_t *)serialHandle;
serialWriteHandle = (serial_manager_write_handle_t *)writeHandle;
(void)memset(writeHandle, 0, SERIAL_MANAGER_WRITE_HANDLE_SIZE);
primask = DisableGlobalIRQ();
handle->openedWriteHandleCount++;
EnableGlobalIRQ(primask);
serialWriteHandle->serialManagerHandle = handle;
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
serialWriteHandle->tag = SERIAL_MANAGER_WRITE_TAG;
#endif
return kStatus_SerialManager_Success;
}
serial_manager_status_t SerialManager_CloseWriteHandle(serial_write_handle_t writeHandle)
{
serial_manager_handle_t *handle;
serial_manager_write_handle_t *serialWriteHandle;
uint32_t primask;
assert(writeHandle);
serialWriteHandle = (serial_manager_write_handle_t *)writeHandle;
handle = (serial_manager_handle_t *)(void *)serialWriteHandle->serialManagerHandle;
assert(handle);
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
assert(SERIAL_MANAGER_WRITE_TAG == serialWriteHandle->tag);
#endif
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
(void)SerialManager_CancelWriting(writeHandle);
#endif
primask = DisableGlobalIRQ();
if (handle->openedWriteHandleCount > 0U)
{
handle->openedWriteHandleCount--;
}
EnableGlobalIRQ(primask);
(void)memset(writeHandle, 0, SERIAL_MANAGER_WRITE_HANDLE_SIZE);
return kStatus_SerialManager_Success;
}
serial_manager_status_t SerialManager_OpenReadHandle(serial_handle_t serialHandle, serial_read_handle_t readHandle)
{
serial_manager_handle_t *handle;
serial_manager_read_handle_t *serialReadHandle;
uint32_t primask;
assert(serialHandle);
assert(readHandle);
assert(SERIAL_MANAGER_READ_HANDLE_SIZE >= sizeof(serial_manager_read_handle_t));
handle = (serial_manager_handle_t *)serialHandle;
serialReadHandle = (serial_manager_read_handle_t *)readHandle;
primask = DisableGlobalIRQ();
if (handle->openedReadHandleHead != NULL)
{
EnableGlobalIRQ(primask);
return kStatus_SerialManager_Busy;
}
handle->openedReadHandleHead = serialReadHandle;
EnableGlobalIRQ(primask);
(void)memset(readHandle, 0, SERIAL_MANAGER_READ_HANDLE_SIZE);
serialReadHandle->serialManagerHandle = handle;
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
serialReadHandle->tag = SERIAL_MANAGER_READ_TAG;
#endif
return kStatus_SerialManager_Success;
}
serial_manager_status_t SerialManager_CloseReadHandle(serial_read_handle_t readHandle)
{
serial_manager_handle_t *handle;
serial_manager_read_handle_t *serialReadHandle;
uint32_t primask;
assert(readHandle);
serialReadHandle = (serial_manager_read_handle_t *)readHandle;
handle = (serial_manager_handle_t *)(void *)serialReadHandle->serialManagerHandle;
assert((NULL != handle) && (handle->openedReadHandleHead == serialReadHandle));
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
assert(SERIAL_MANAGER_READ_TAG == serialReadHandle->tag);
#endif
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
(void)SerialManager_CancelReading(readHandle);
#endif
primask = DisableGlobalIRQ();
handle->openedReadHandleHead = NULL;
EnableGlobalIRQ(primask);
(void)memset(readHandle, 0, SERIAL_MANAGER_READ_HANDLE_SIZE);
return kStatus_SerialManager_Success;
}
serial_manager_status_t SerialManager_WriteBlocking(serial_write_handle_t writeHandle, uint8_t *buffer, uint32_t length)
{
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
return SerialManager_Write(writeHandle, buffer, length, kSerialManager_TransmissionBlocking);
#else
return SerialManager_Write(writeHandle, buffer, length);
#endif
}
serial_manager_status_t SerialManager_ReadBlocking(serial_read_handle_t readHandle, uint8_t *buffer, uint32_t length)
{
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
return SerialManager_Read(readHandle, buffer, length, kSerialManager_TransmissionBlocking, NULL);
#else
return SerialManager_Read(readHandle, buffer, length);
#endif
}
#if (defined(SERIAL_MANAGER_NON_BLOCKING_MODE) && (SERIAL_MANAGER_NON_BLOCKING_MODE > 0U))
serial_manager_status_t SerialManager_WriteNonBlocking(serial_write_handle_t writeHandle,
uint8_t *buffer,
uint32_t length)
{
return SerialManager_Write(writeHandle, buffer, length, kSerialManager_TransmissionNonBlocking);
}
serial_manager_status_t SerialManager_ReadNonBlocking(serial_read_handle_t readHandle, uint8_t *buffer, uint32_t length)
{
return SerialManager_Read(readHandle, buffer, length, kSerialManager_TransmissionNonBlocking, NULL);
}
serial_manager_status_t SerialManager_CancelWriting(serial_write_handle_t writeHandle)
{
serial_manager_write_handle_t *serialWriteHandle;
uint32_t primask;
uint8_t isNotUsed = 0;
assert(writeHandle);
serialWriteHandle = (serial_manager_write_handle_t *)writeHandle;
assert(serialWriteHandle->serialManagerHandle);
assert(SERIAL_MANAGER_WRITE_TAG == serialWriteHandle->tag);
if ((NULL != serialWriteHandle->transfer.buffer) &&
(kSerialManager_TransmissionBlocking == serialWriteHandle->transfer.mode))
{
return kStatus_SerialManager_Error;
}
primask = DisableGlobalIRQ();
if (serialWriteHandle != (serial_manager_write_handle_t *)(void *)LIST_GetHead(
&serialWriteHandle->serialManagerHandle->runningWriteHandleHead))
{
(void)LIST_RemoveElement(&serialWriteHandle->link);
isNotUsed = 1;
}
EnableGlobalIRQ(primask);
if (0U != isNotUsed)
{
serialWriteHandle->transfer.soFar = 0;
serialWriteHandle->transfer.status = kStatus_SerialManager_Canceled;
SerialManager_AddTail(&serialWriteHandle->serialManagerHandle->completedWriteHandleHead, serialWriteHandle);
#if defined(OSA_USED)
#if (defined(SERIAL_MANAGER_USE_COMMON_TASK) && (SERIAL_MANAGER_USE_COMMON_TASK > 0U))
serialWriteHandle->serialManagerHandle->commontaskMsg.callback = SerialManager_Task;
serialWriteHandle->serialManagerHandle->commontaskMsg.callbackParam = serialWriteHandle->serialManagerHandle;
COMMON_TASK_post_message(&serialWriteHandle->serialManagerHandle->commontaskMsg);
#else
(void)OSA_EventSet((osa_event_handle_t)serialWriteHandle->serialManagerHandle->event, SERIAL_EVENT_DATA_SENT);
#endif
#else
SerialManager_Task(serialWriteHandle->serialManagerHandle);
#endif
}
else
{
switch (serialWriteHandle->serialManagerHandle->type)
{
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
case kSerialPort_Uart:
(void)Serial_UartCancelWrite(
((serial_handle_t)&serialWriteHandle->serialManagerHandle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
case kSerialPort_UsbCdc:
(void)Serial_UsbCdcCancelWrite(
((serial_handle_t)&serialWriteHandle->serialManagerHandle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
case kSerialPort_Swo:
(void)Serial_SwoCancelWrite(
((serial_handle_t)&serialWriteHandle->serialManagerHandle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
case kSerialPort_UsbCdcVirtual:
(void)Serial_UsbCdcVirtualCancelWrite(
((serial_handle_t)&serialWriteHandle->serialManagerHandle->lowLevelhandleBuffer[0]));
break;
#endif
default:
/*MISRA rule 16.4*/
break;
}
}
(void)SerialManager_StartWriting(serialWriteHandle->serialManagerHandle);
return kStatus_SerialManager_Success;
}
serial_manager_status_t SerialManager_CancelReading(serial_read_handle_t readHandle)
{
serial_manager_read_handle_t *serialReadHandle;
serial_manager_callback_message_t msg;
uint8_t *buffer;
uint32_t primask;
assert(readHandle);
serialReadHandle = (serial_manager_read_handle_t *)readHandle;
assert(SERIAL_MANAGER_READ_TAG == serialReadHandle->tag);
if ((NULL != serialReadHandle->transfer.buffer) &&
(kSerialManager_TransmissionBlocking == serialReadHandle->transfer.mode))
{
return kStatus_SerialManager_Error;
}
primask = DisableGlobalIRQ();
buffer = serialReadHandle->transfer.buffer;
serialReadHandle->transfer.buffer = NULL;
serialReadHandle->transfer.length = 0;
msg.buffer = buffer;
msg.length = serialReadHandle->transfer.soFar;
EnableGlobalIRQ(primask);
if (NULL != buffer)
{
if (NULL != serialReadHandle->callback)
{
serialReadHandle->callback(serialReadHandle->callbackParam, &msg, kStatus_SerialManager_Canceled);
}
}
return kStatus_SerialManager_Success;
}
serial_manager_status_t SerialManager_TryRead(serial_read_handle_t readHandle,
uint8_t *buffer,
uint32_t length,
uint32_t *receivedLength)
{
assert(receivedLength);
return SerialManager_Read(readHandle, buffer, length, kSerialManager_TransmissionBlocking, receivedLength);
}
serial_manager_status_t SerialManager_InstallTxCallback(serial_write_handle_t writeHandle,
serial_manager_callback_t callback,
void *callbackParam)
{
serial_manager_write_handle_t *serialWriteHandle;
assert(writeHandle);
serialWriteHandle = (serial_manager_write_handle_t *)writeHandle;
assert(SERIAL_MANAGER_WRITE_TAG == serialWriteHandle->tag);
serialWriteHandle->callbackParam = callbackParam;
serialWriteHandle->callback = callback;
return kStatus_SerialManager_Success;
}
serial_manager_status_t SerialManager_InstallRxCallback(serial_read_handle_t readHandle,
serial_manager_callback_t callback,
void *callbackParam)
{
serial_manager_read_handle_t *serialReadHandle;
assert(readHandle);
serialReadHandle = (serial_manager_read_handle_t *)readHandle;
assert(SERIAL_MANAGER_READ_TAG == serialReadHandle->tag);
serialReadHandle->callbackParam = callbackParam;
serialReadHandle->callback = callback;
return kStatus_SerialManager_Success;
}
#endif
serial_manager_status_t SerialManager_EnterLowpower(serial_handle_t serialHandle)
{
serial_manager_handle_t *handle;
serial_manager_status_t status = kStatus_SerialManager_Error;
assert(serialHandle);
handle = (serial_manager_handle_t *)serialHandle;
switch (handle->type)
{
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
case kSerialPort_Uart:
status = Serial_UartEnterLowpower(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
case kSerialPort_UsbCdc:
break;
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
case kSerialPort_Swo:
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
case kSerialPort_UsbCdcVirtual:
break;
#endif
default:
/*MISRA rule 16.4*/
break;
}
return status;
}
serial_manager_status_t SerialManager_ExitLowpower(serial_handle_t serialHandle)
{
serial_manager_handle_t *handle;
serial_manager_status_t status = kStatus_SerialManager_Error;
assert(serialHandle);
handle = (serial_manager_handle_t *)serialHandle;
switch (handle->type)
{
#if (defined(SERIAL_PORT_TYPE_UART) && (SERIAL_PORT_TYPE_UART > 0U))
case kSerialPort_Uart:
status = Serial_UartExitLowpower(((serial_handle_t)&handle->lowLevelhandleBuffer[0]));
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC) && (SERIAL_PORT_TYPE_USBCDC > 0U))
case kSerialPort_UsbCdc:
break;
#endif
#if (defined(SERIAL_PORT_TYPE_SWO) && (SERIAL_PORT_TYPE_SWO > 0U))
case kSerialPort_Swo:
break;
#endif
#if (defined(SERIAL_PORT_TYPE_USBCDC_VIRTUAL) && (SERIAL_PORT_TYPE_USBCDC_VIRTUAL > 0U))
case kSerialPort_UsbCdcVirtual:
break;
#endif
default:
/*MISRA rule 16.4*/
break;
}
return status;
}