The official Mbed 2 C/C++ SDK provides the software platform and libraries to build your applications.
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mbed 2
This is the mbed 2 library. If you'd like to learn about Mbed OS please see the mbed-os docs.
SerialBase.h
- Committer:
- AnnaBridge
- Date:
- 2016-09-16
- Revision:
- 126:abea610beb85
- Parent:
- 122:f9eeca106725
File content as of revision 126:abea610beb85:
/* mbed Microcontroller Library * Copyright (c) 2006-2013 ARM Limited * * 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 * * http://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. */ #ifndef MBED_SERIALBASE_H #define MBED_SERIALBASE_H #include "platform.h" #if DEVICE_SERIAL #include "Stream.h" #include "Callback.h" #include "serial_api.h" #if DEVICE_SERIAL_ASYNCH #include "CThunk.h" #include "dma_api.h" #endif namespace mbed { /** A base class for serial port implementations * Can't be instantiated directly (use Serial or RawSerial) * * @Note Synchronization level: Set by subclass */ class SerialBase { public: /** Set the baud rate of the serial port * * @param baudrate The baudrate of the serial port (default = 9600). */ void baud(int baudrate); enum Parity { None = 0, Odd, Even, Forced1, Forced0 }; enum IrqType { RxIrq = 0, TxIrq, IrqCnt }; enum Flow { Disabled = 0, RTS, CTS, RTSCTS }; /** Set the transmission format used by the serial port * * @param bits The number of bits in a word (5-8; default = 8) * @param parity The parity used (SerialBase::None, SerialBase::Odd, SerialBase::Even, SerialBase::Forced1, SerialBase::Forced0; default = SerialBase::None) * @param stop The number of stop bits (1 or 2; default = 1) */ void format(int bits=8, Parity parity=SerialBase::None, int stop_bits=1); /** Determine if there is a character available to read * * @returns * 1 if there is a character available to read, * 0 otherwise */ int readable(); /** Determine if there is space available to write a character * * @returns * 1 if there is space to write a character, * 0 otherwise */ int writeable(); /** Attach a function to call whenever a serial interrupt is generated * * @param func A pointer to a void function, or 0 to set as none * @param type Which serial interrupt to attach the member function to (Seriall::RxIrq for receive, TxIrq for transmit buffer empty) */ void attach(Callback<void()> func, IrqType type=RxIrq); /** Attach a member function to call whenever a serial interrupt is generated * * @param obj pointer to the object to call the member function on * @param method pointer to the member function to be called * @param type Which serial interrupt to attach the member function to (Seriall::RxIrq for receive, TxIrq for transmit buffer empty) */ template<typename T> void attach(T *obj, void (T::*method)(), IrqType type=RxIrq) { attach(Callback<void()>(obj, method), type); } /** Attach a member function to call whenever a serial interrupt is generated * * @param obj pointer to the object to call the member function on * @param method pointer to the member function to be called * @param type Which serial interrupt to attach the member function to (Seriall::RxIrq for receive, TxIrq for transmit buffer empty) */ template<typename T> void attach(T *obj, void (*method)(T*), IrqType type=RxIrq) { attach(Callback<void()>(obj, method), type); } /** Generate a break condition on the serial line */ void send_break(); protected: /** Acquire exclusive access to this serial port */ virtual void lock(void); /** Release exclusive access to this serial port */ virtual void unlock(void); public: #if DEVICE_SERIAL_FC /** Set the flow control type on the serial port * * @param type the flow control type (Disabled, RTS, CTS, RTSCTS) * @param flow1 the first flow control pin (RTS for RTS or RTSCTS, CTS for CTS) * @param flow2 the second flow control pin (CTS for RTSCTS) */ void set_flow_control(Flow type, PinName flow1=NC, PinName flow2=NC); #endif static void _irq_handler(uint32_t id, SerialIrq irq_type); #if DEVICE_SERIAL_ASYNCH /** Begin asynchronous write using 8bit buffer. The completition invokes registered TX event callback * * @param buffer The buffer where received data will be stored * @param length The buffer length in bytes * @param callback The event callback function * @param event The logical OR of TX events */ int write(const uint8_t *buffer, int length, const event_callback_t& callback, int event = SERIAL_EVENT_TX_COMPLETE); /** Begin asynchronous write using 16bit buffer. The completition invokes registered TX event callback * * @param buffer The buffer where received data will be stored * @param length The buffer length in bytes * @param callback The event callback function * @param event The logical OR of TX events */ int write(const uint16_t *buffer, int length, const event_callback_t& callback, int event = SERIAL_EVENT_TX_COMPLETE); /** Abort the on-going write transfer */ void abort_write(); /** Begin asynchronous reading using 8bit buffer. The completition invokes registred RX event callback. * * @param buffer The buffer where received data will be stored * @param length The buffer length in bytes * @param callback The event callback function * @param event The logical OR of RX events * @param char_match The matching character */ int read(uint8_t *buffer, int length, const event_callback_t& callback, int event = SERIAL_EVENT_RX_COMPLETE, unsigned char char_match = SERIAL_RESERVED_CHAR_MATCH); /** Begin asynchronous reading using 16bit buffer. The completition invokes registred RX event callback. * * @param buffer The buffer where received data will be stored * @param length The buffer length in bytes * @param callback The event callback function * @param event The logical OR of RX events * @param char_match The matching character */ int read(uint16_t *buffer, int length, const event_callback_t& callback, int event = SERIAL_EVENT_RX_COMPLETE, unsigned char char_match = SERIAL_RESERVED_CHAR_MATCH); /** Abort the on-going read transfer */ void abort_read(); /** Configure DMA usage suggestion for non-blocking TX transfers * * @param usage The usage DMA hint for peripheral * @return Zero if the usage was set, -1 if a transaction is on-going */ int set_dma_usage_tx(DMAUsage usage); /** Configure DMA usage suggestion for non-blocking RX transfers * * @param usage The usage DMA hint for peripheral * @return Zero if the usage was set, -1 if a transaction is on-going */ int set_dma_usage_rx(DMAUsage usage); protected: void start_read(void *buffer, int buffer_size, char buffer_width, const event_callback_t& callback, int event, unsigned char char_match); void start_write(const void *buffer, int buffer_size, char buffer_width, const event_callback_t& callback, int event); void interrupt_handler_asynch(void); #endif protected: SerialBase(PinName tx, PinName rx); virtual ~SerialBase() { } int _base_getc(); int _base_putc(int c); #if DEVICE_SERIAL_ASYNCH CThunk<SerialBase> _thunk_irq; event_callback_t _tx_callback; event_callback_t _rx_callback; DMAUsage _tx_usage; DMAUsage _rx_usage; #endif serial_t _serial; Callback<void()> _irq[IrqCnt]; int _baud; }; } // namespace mbed #endif #endif