rt-thread-official/bsp/imxrt/libraries/MIMXRT1064/CMSIS/Driver/Include/Driver_USART.h

342 lines
19 KiB
C

/*
* Copyright (c) 2013-2017 ARM Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* $Date: 2. Feb 2017
* $Revision: V2.3
*
* Project: USART (Universal Synchronous Asynchronous Receiver Transmitter)
* Driver definitions
*/
/* History:
* Version 2.3
* ARM_USART_STATUS and ARM_USART_MODEM_STATUS made volatile
* Version 2.2
* Corrected ARM_USART_CPOL_Pos and ARM_USART_CPHA_Pos definitions
* Version 2.1
* Removed optional argument parameter from Signal Event
* Version 2.0
* New simplified driver:
* complexity moved to upper layer (especially data handling)
* more unified API for different communication interfaces
* renamed driver UART -> USART (Asynchronous & Synchronous)
* Added modes:
* Synchronous
* Single-wire
* IrDA
* Smart Card
* Changed prefix ARM_DRV -> ARM_DRIVER
* Version 1.10
* Namespace prefix ARM_ added
* Version 1.01
* Added events:
* ARM_UART_EVENT_TX_EMPTY, ARM_UART_EVENT_RX_TIMEOUT
* ARM_UART_EVENT_TX_THRESHOLD, ARM_UART_EVENT_RX_THRESHOLD
* Added functions: SetTxThreshold, SetRxThreshold
* Added "rx_timeout_event" to capabilities
* Version 1.00
* Initial release
*/
#ifndef DRIVER_USART_H_
#define DRIVER_USART_H_
#ifdef __cplusplus
extern "C"
{
#endif
#include "Driver_Common.h"
#define ARM_USART_API_VERSION ARM_DRIVER_VERSION_MAJOR_MINOR(2,3) /* API version */
/****** USART Control Codes *****/
#define ARM_USART_CONTROL_Pos 0
#define ARM_USART_CONTROL_Msk (0xFFUL << ARM_USART_CONTROL_Pos)
/*----- USART Control Codes: Mode -----*/
#define ARM_USART_MODE_ASYNCHRONOUS (0x01UL << ARM_USART_CONTROL_Pos) ///< UART (Asynchronous); arg = Baudrate
#define ARM_USART_MODE_SYNCHRONOUS_MASTER (0x02UL << ARM_USART_CONTROL_Pos) ///< Synchronous Master (generates clock signal); arg = Baudrate
#define ARM_USART_MODE_SYNCHRONOUS_SLAVE (0x03UL << ARM_USART_CONTROL_Pos) ///< Synchronous Slave (external clock signal)
#define ARM_USART_MODE_SINGLE_WIRE (0x04UL << ARM_USART_CONTROL_Pos) ///< UART Single-wire (half-duplex); arg = Baudrate
#define ARM_USART_MODE_IRDA (0x05UL << ARM_USART_CONTROL_Pos) ///< UART IrDA; arg = Baudrate
#define ARM_USART_MODE_SMART_CARD (0x06UL << ARM_USART_CONTROL_Pos) ///< UART Smart Card; arg = Baudrate
/*----- USART Control Codes: Mode Parameters: Data Bits -----*/
#define ARM_USART_DATA_BITS_Pos 8
#define ARM_USART_DATA_BITS_Msk (7UL << ARM_USART_DATA_BITS_Pos)
#define ARM_USART_DATA_BITS_5 (5UL << ARM_USART_DATA_BITS_Pos) ///< 5 Data bits
#define ARM_USART_DATA_BITS_6 (6UL << ARM_USART_DATA_BITS_Pos) ///< 6 Data bit
#define ARM_USART_DATA_BITS_7 (7UL << ARM_USART_DATA_BITS_Pos) ///< 7 Data bits
#define ARM_USART_DATA_BITS_8 (0UL << ARM_USART_DATA_BITS_Pos) ///< 8 Data bits (default)
#define ARM_USART_DATA_BITS_9 (1UL << ARM_USART_DATA_BITS_Pos) ///< 9 Data bits
/*----- USART Control Codes: Mode Parameters: Parity -----*/
#define ARM_USART_PARITY_Pos 12
#define ARM_USART_PARITY_Msk (3UL << ARM_USART_PARITY_Pos)
#define ARM_USART_PARITY_NONE (0UL << ARM_USART_PARITY_Pos) ///< No Parity (default)
#define ARM_USART_PARITY_EVEN (1UL << ARM_USART_PARITY_Pos) ///< Even Parity
#define ARM_USART_PARITY_ODD (2UL << ARM_USART_PARITY_Pos) ///< Odd Parity
/*----- USART Control Codes: Mode Parameters: Stop Bits -----*/
#define ARM_USART_STOP_BITS_Pos 14
#define ARM_USART_STOP_BITS_Msk (3UL << ARM_USART_STOP_BITS_Pos)
#define ARM_USART_STOP_BITS_1 (0UL << ARM_USART_STOP_BITS_Pos) ///< 1 Stop bit (default)
#define ARM_USART_STOP_BITS_2 (1UL << ARM_USART_STOP_BITS_Pos) ///< 2 Stop bits
#define ARM_USART_STOP_BITS_1_5 (2UL << ARM_USART_STOP_BITS_Pos) ///< 1.5 Stop bits
#define ARM_USART_STOP_BITS_0_5 (3UL << ARM_USART_STOP_BITS_Pos) ///< 0.5 Stop bits
/*----- USART Control Codes: Mode Parameters: Flow Control -----*/
#define ARM_USART_FLOW_CONTROL_Pos 16
#define ARM_USART_FLOW_CONTROL_Msk (3UL << ARM_USART_FLOW_CONTROL_Pos)
#define ARM_USART_FLOW_CONTROL_NONE (0UL << ARM_USART_FLOW_CONTROL_Pos) ///< No Flow Control (default)
#define ARM_USART_FLOW_CONTROL_RTS (1UL << ARM_USART_FLOW_CONTROL_Pos) ///< RTS Flow Control
#define ARM_USART_FLOW_CONTROL_CTS (2UL << ARM_USART_FLOW_CONTROL_Pos) ///< CTS Flow Control
#define ARM_USART_FLOW_CONTROL_RTS_CTS (3UL << ARM_USART_FLOW_CONTROL_Pos) ///< RTS/CTS Flow Control
/*----- USART Control Codes: Mode Parameters: Clock Polarity (Synchronous mode) -----*/
#define ARM_USART_CPOL_Pos 18
#define ARM_USART_CPOL_Msk (1UL << ARM_USART_CPOL_Pos)
#define ARM_USART_CPOL0 (0UL << ARM_USART_CPOL_Pos) ///< CPOL = 0 (default)
#define ARM_USART_CPOL1 (1UL << ARM_USART_CPOL_Pos) ///< CPOL = 1
/*----- USART Control Codes: Mode Parameters: Clock Phase (Synchronous mode) -----*/
#define ARM_USART_CPHA_Pos 19
#define ARM_USART_CPHA_Msk (1UL << ARM_USART_CPHA_Pos)
#define ARM_USART_CPHA0 (0UL << ARM_USART_CPHA_Pos) ///< CPHA = 0 (default)
#define ARM_USART_CPHA1 (1UL << ARM_USART_CPHA_Pos) ///< CPHA = 1
/*----- USART Control Codes: Miscellaneous Controls -----*/
#define ARM_USART_SET_DEFAULT_TX_VALUE (0x10UL << ARM_USART_CONTROL_Pos) ///< Set default Transmit value (Synchronous Receive only); arg = value
#define ARM_USART_SET_IRDA_PULSE (0x11UL << ARM_USART_CONTROL_Pos) ///< Set IrDA Pulse in ns; arg: 0=3/16 of bit period
#define ARM_USART_SET_SMART_CARD_GUARD_TIME (0x12UL << ARM_USART_CONTROL_Pos) ///< Set Smart Card Guard Time; arg = number of bit periods
#define ARM_USART_SET_SMART_CARD_CLOCK (0x13UL << ARM_USART_CONTROL_Pos) ///< Set Smart Card Clock in Hz; arg: 0=Clock not generated
#define ARM_USART_CONTROL_SMART_CARD_NACK (0x14UL << ARM_USART_CONTROL_Pos) ///< Smart Card NACK generation; arg: 0=disabled, 1=enabled
#define ARM_USART_CONTROL_TX (0x15UL << ARM_USART_CONTROL_Pos) ///< Transmitter; arg: 0=disabled, 1=enabled
#define ARM_USART_CONTROL_RX (0x16UL << ARM_USART_CONTROL_Pos) ///< Receiver; arg: 0=disabled, 1=enabled
#define ARM_USART_CONTROL_BREAK (0x17UL << ARM_USART_CONTROL_Pos) ///< Continuous Break transmission; arg: 0=disabled, 1=enabled
#define ARM_USART_ABORT_SEND (0x18UL << ARM_USART_CONTROL_Pos) ///< Abort \ref ARM_USART_Send
#define ARM_USART_ABORT_RECEIVE (0x19UL << ARM_USART_CONTROL_Pos) ///< Abort \ref ARM_USART_Receive
#define ARM_USART_ABORT_TRANSFER (0x1AUL << ARM_USART_CONTROL_Pos) ///< Abort \ref ARM_USART_Transfer
/****** USART specific error codes *****/
#define ARM_USART_ERROR_MODE (ARM_DRIVER_ERROR_SPECIFIC - 1) ///< Specified Mode not supported
#define ARM_USART_ERROR_BAUDRATE (ARM_DRIVER_ERROR_SPECIFIC - 2) ///< Specified baudrate not supported
#define ARM_USART_ERROR_DATA_BITS (ARM_DRIVER_ERROR_SPECIFIC - 3) ///< Specified number of Data bits not supported
#define ARM_USART_ERROR_PARITY (ARM_DRIVER_ERROR_SPECIFIC - 4) ///< Specified Parity not supported
#define ARM_USART_ERROR_STOP_BITS (ARM_DRIVER_ERROR_SPECIFIC - 5) ///< Specified number of Stop bits not supported
#define ARM_USART_ERROR_FLOW_CONTROL (ARM_DRIVER_ERROR_SPECIFIC - 6) ///< Specified Flow Control not supported
#define ARM_USART_ERROR_CPOL (ARM_DRIVER_ERROR_SPECIFIC - 7) ///< Specified Clock Polarity not supported
#define ARM_USART_ERROR_CPHA (ARM_DRIVER_ERROR_SPECIFIC - 8) ///< Specified Clock Phase not supported
/**
\brief USART Status
*/
typedef volatile struct _ARM_USART_STATUS {
uint32_t tx_busy : 1; ///< Transmitter busy flag
uint32_t rx_busy : 1; ///< Receiver busy flag
uint32_t tx_underflow : 1; ///< Transmit data underflow detected (cleared on start of next send operation)
uint32_t rx_overflow : 1; ///< Receive data overflow detected (cleared on start of next receive operation)
uint32_t rx_break : 1; ///< Break detected on receive (cleared on start of next receive operation)
uint32_t rx_framing_error : 1; ///< Framing error detected on receive (cleared on start of next receive operation)
uint32_t rx_parity_error : 1; ///< Parity error detected on receive (cleared on start of next receive operation)
uint32_t reserved : 25;
} ARM_USART_STATUS;
/**
\brief USART Modem Control
*/
typedef enum _ARM_USART_MODEM_CONTROL {
ARM_USART_RTS_CLEAR, ///< Deactivate RTS
ARM_USART_RTS_SET, ///< Activate RTS
ARM_USART_DTR_CLEAR, ///< Deactivate DTR
ARM_USART_DTR_SET ///< Activate DTR
} ARM_USART_MODEM_CONTROL;
/**
\brief USART Modem Status
*/
typedef volatile struct _ARM_USART_MODEM_STATUS {
uint32_t cts : 1; ///< CTS state: 1=Active, 0=Inactive
uint32_t dsr : 1; ///< DSR state: 1=Active, 0=Inactive
uint32_t dcd : 1; ///< DCD state: 1=Active, 0=Inactive
uint32_t ri : 1; ///< RI state: 1=Active, 0=Inactive
uint32_t reserved : 28;
} ARM_USART_MODEM_STATUS;
/****** USART Event *****/
#define ARM_USART_EVENT_SEND_COMPLETE (1UL << 0) ///< Send completed; however USART may still transmit data
#define ARM_USART_EVENT_RECEIVE_COMPLETE (1UL << 1) ///< Receive completed
#define ARM_USART_EVENT_TRANSFER_COMPLETE (1UL << 2) ///< Transfer completed
#define ARM_USART_EVENT_TX_COMPLETE (1UL << 3) ///< Transmit completed (optional)
#define ARM_USART_EVENT_TX_UNDERFLOW (1UL << 4) ///< Transmit data not available (Synchronous Slave)
#define ARM_USART_EVENT_RX_OVERFLOW (1UL << 5) ///< Receive data overflow
#define ARM_USART_EVENT_RX_TIMEOUT (1UL << 6) ///< Receive character timeout (optional)
#define ARM_USART_EVENT_RX_BREAK (1UL << 7) ///< Break detected on receive
#define ARM_USART_EVENT_RX_FRAMING_ERROR (1UL << 8) ///< Framing error detected on receive
#define ARM_USART_EVENT_RX_PARITY_ERROR (1UL << 9) ///< Parity error detected on receive
#define ARM_USART_EVENT_CTS (1UL << 10) ///< CTS state changed (optional)
#define ARM_USART_EVENT_DSR (1UL << 11) ///< DSR state changed (optional)
#define ARM_USART_EVENT_DCD (1UL << 12) ///< DCD state changed (optional)
#define ARM_USART_EVENT_RI (1UL << 13) ///< RI state changed (optional)
// Function documentation
/**
\fn ARM_DRIVER_VERSION ARM_USART_GetVersion (void)
\brief Get driver version.
\return \ref ARM_DRIVER_VERSION
\fn ARM_USART_CAPABILITIES ARM_USART_GetCapabilities (void)
\brief Get driver capabilities
\return \ref ARM_USART_CAPABILITIES
\fn int32_t ARM_USART_Initialize (ARM_USART_SignalEvent_t cb_event)
\brief Initialize USART Interface.
\param[in] cb_event Pointer to \ref ARM_USART_SignalEvent
\return \ref execution_status
\fn int32_t ARM_USART_Uninitialize (void)
\brief De-initialize USART Interface.
\return \ref execution_status
\fn int32_t ARM_USART_PowerControl (ARM_POWER_STATE state)
\brief Control USART Interface Power.
\param[in] state Power state
\return \ref execution_status
\fn int32_t ARM_USART_Send (const void *data, uint32_t num)
\brief Start sending data to USART transmitter.
\param[in] data Pointer to buffer with data to send to USART transmitter
\param[in] num Number of data items to send
\return \ref execution_status
\fn int32_t ARM_USART_Receive (void *data, uint32_t num)
\brief Start receiving data from USART receiver.
\param[out] data Pointer to buffer for data to receive from USART receiver
\param[in] num Number of data items to receive
\return \ref execution_status
\fn int32_t ARM_USART_Transfer (const void *data_out,
void *data_in,
uint32_t num)
\brief Start sending/receiving data to/from USART transmitter/receiver.
\param[in] data_out Pointer to buffer with data to send to USART transmitter
\param[out] data_in Pointer to buffer for data to receive from USART receiver
\param[in] num Number of data items to transfer
\return \ref execution_status
\fn uint32_t ARM_USART_GetTxCount (void)
\brief Get transmitted data count.
\return number of data items transmitted
\fn uint32_t ARM_USART_GetRxCount (void)
\brief Get received data count.
\return number of data items received
\fn int32_t ARM_USART_Control (uint32_t control, uint32_t arg)
\brief Control USART Interface.
\param[in] control Operation
\param[in] arg Argument of operation (optional)
\return common \ref execution_status and driver specific \ref usart_execution_status
\fn ARM_USART_STATUS ARM_USART_GetStatus (void)
\brief Get USART status.
\return USART status \ref ARM_USART_STATUS
\fn int32_t ARM_USART_SetModemControl (ARM_USART_MODEM_CONTROL control)
\brief Set USART Modem Control line state.
\param[in] control \ref ARM_USART_MODEM_CONTROL
\return \ref execution_status
\fn ARM_USART_MODEM_STATUS ARM_USART_GetModemStatus (void)
\brief Get USART Modem Status lines state.
\return modem status \ref ARM_USART_MODEM_STATUS
\fn void ARM_USART_SignalEvent (uint32_t event)
\brief Signal USART Events.
\param[in] event \ref USART_events notification mask
\return none
*/
typedef void (*ARM_USART_SignalEvent_t) (uint32_t event); ///< Pointer to \ref ARM_USART_SignalEvent : Signal USART Event.
/**
\brief USART Device Driver Capabilities.
*/
typedef struct _ARM_USART_CAPABILITIES {
uint32_t asynchronous : 1; ///< supports UART (Asynchronous) mode
uint32_t synchronous_master : 1; ///< supports Synchronous Master mode
uint32_t synchronous_slave : 1; ///< supports Synchronous Slave mode
uint32_t single_wire : 1; ///< supports UART Single-wire mode
uint32_t irda : 1; ///< supports UART IrDA mode
uint32_t smart_card : 1; ///< supports UART Smart Card mode
uint32_t smart_card_clock : 1; ///< Smart Card Clock generator available
uint32_t flow_control_rts : 1; ///< RTS Flow Control available
uint32_t flow_control_cts : 1; ///< CTS Flow Control available
uint32_t event_tx_complete : 1; ///< Transmit completed event: \ref ARM_USART_EVENT_TX_COMPLETE
uint32_t event_rx_timeout : 1; ///< Signal receive character timeout event: \ref ARM_USART_EVENT_RX_TIMEOUT
uint32_t rts : 1; ///< RTS Line: 0=not available, 1=available
uint32_t cts : 1; ///< CTS Line: 0=not available, 1=available
uint32_t dtr : 1; ///< DTR Line: 0=not available, 1=available
uint32_t dsr : 1; ///< DSR Line: 0=not available, 1=available
uint32_t dcd : 1; ///< DCD Line: 0=not available, 1=available
uint32_t ri : 1; ///< RI Line: 0=not available, 1=available
uint32_t event_cts : 1; ///< Signal CTS change event: \ref ARM_USART_EVENT_CTS
uint32_t event_dsr : 1; ///< Signal DSR change event: \ref ARM_USART_EVENT_DSR
uint32_t event_dcd : 1; ///< Signal DCD change event: \ref ARM_USART_EVENT_DCD
uint32_t event_ri : 1; ///< Signal RI change event: \ref ARM_USART_EVENT_RI
uint32_t reserved : 11; ///< Reserved (must be zero)
} ARM_USART_CAPABILITIES;
/**
\brief Access structure of the USART Driver.
*/
typedef struct _ARM_DRIVER_USART {
ARM_DRIVER_VERSION (*GetVersion) (void); ///< Pointer to \ref ARM_USART_GetVersion : Get driver version.
ARM_USART_CAPABILITIES (*GetCapabilities) (void); ///< Pointer to \ref ARM_USART_GetCapabilities : Get driver capabilities.
int32_t (*Initialize) (ARM_USART_SignalEvent_t cb_event); ///< Pointer to \ref ARM_USART_Initialize : Initialize USART Interface.
int32_t (*Uninitialize) (void); ///< Pointer to \ref ARM_USART_Uninitialize : De-initialize USART Interface.
int32_t (*PowerControl) (ARM_POWER_STATE state); ///< Pointer to \ref ARM_USART_PowerControl : Control USART Interface Power.
int32_t (*Send) (const void *data, uint32_t num); ///< Pointer to \ref ARM_USART_Send : Start sending data to USART transmitter.
int32_t (*Receive) ( void *data, uint32_t num); ///< Pointer to \ref ARM_USART_Receive : Start receiving data from USART receiver.
int32_t (*Transfer) (const void *data_out,
void *data_in,
uint32_t num); ///< Pointer to \ref ARM_USART_Transfer : Start sending/receiving data to/from USART.
uint32_t (*GetTxCount) (void); ///< Pointer to \ref ARM_USART_GetTxCount : Get transmitted data count.
uint32_t (*GetRxCount) (void); ///< Pointer to \ref ARM_USART_GetRxCount : Get received data count.
int32_t (*Control) (uint32_t control, uint32_t arg); ///< Pointer to \ref ARM_USART_Control : Control USART Interface.
ARM_USART_STATUS (*GetStatus) (void); ///< Pointer to \ref ARM_USART_GetStatus : Get USART status.
int32_t (*SetModemControl) (ARM_USART_MODEM_CONTROL control); ///< Pointer to \ref ARM_USART_SetModemControl : Set USART Modem Control line state.
ARM_USART_MODEM_STATUS (*GetModemStatus) (void); ///< Pointer to \ref ARM_USART_GetModemStatus : Get USART Modem Status lines state.
} const ARM_DRIVER_USART;
#ifdef __cplusplus
}
#endif
#endif /* DRIVER_USART_H_ */