/*! * \file serial/serial.h * \author William Woodall * \author John Harrison * \version 0.1 * * \section LICENSE * * The MIT License * * Copyright (c) 2012 William Woodall * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. * * \section DESCRIPTION * * This provides a cross platform interface for interacting with Serial Ports. */ #ifndef SERIAL_H #define SERIAL_H #include #include #include #include #include #include #include // #include #include "wwserial/include/v8stdint.h" #define THROW(exceptionClass, message) throw exceptionClass(__FILE__, \ __LINE__, (message) ) namespace serial { /*! * Enumeration defines the possible bytesizes for the serial port. */ typedef enum { fivebits = 5, sixbits = 6, sevenbits = 7, eightbits = 8 } bytesize_t; /*! * Enumeration defines the possible parity types for the serial port. */ typedef enum { parity_none = 0, parity_odd = 1, parity_even = 2, parity_mark = 3, parity_space = 4 } parity_t; /*! * Enumeration defines the possible stopbit types for the serial port. */ typedef enum { stopbits_one = 1, stopbits_two = 2, stopbits_one_point_five } stopbits_t; /*! * Enumeration defines the possible flowcontrol types for the serial port. */ typedef enum { flowcontrol_none = 0, flowcontrol_software, flowcontrol_hardware } flowcontrol_t; /*! * Structure for setting the timeout of the serial port, times are * in milliseconds. * * In order to disable the interbyte timeout, set it to Timeout::max(). */ struct Timeout { #ifdef max # undef max #endif static uint32_t max() {return std::numeric_limits::max();} /*! * Convenience function to generate Timeout structs using a * single absolute timeout. * * \param timeout A long that defines the time in milliseconds until a * timeout occurs after a call to read or write is made. * * \return Timeout struct that represents this simple timeout provided. */ static Timeout simpleTimeout(uint32_t timeout) { return Timeout(max(), timeout, 0, timeout, 0); } /*! Number of milliseconds between bytes received to timeout on. */ uint32_t inter_byte_timeout; /*! A constant number of milliseconds to wait after calling read. */ uint32_t read_timeout_constant; /*! A multiplier against the number of requested bytes to wait after * calling read. */ uint32_t read_timeout_multiplier; /*! A constant number of milliseconds to wait after calling write. */ uint32_t write_timeout_constant; /*! A multiplier against the number of requested bytes to wait after * calling write. */ uint32_t write_timeout_multiplier; explicit Timeout (uint32_t inter_byte_timeout_=0, uint32_t read_timeout_constant_=0, uint32_t read_timeout_multiplier_=0, uint32_t write_timeout_constant_=0, uint32_t write_timeout_multiplier_=0) : inter_byte_timeout(inter_byte_timeout_), read_timeout_constant(read_timeout_constant_), read_timeout_multiplier(read_timeout_multiplier_), write_timeout_constant(write_timeout_constant_), write_timeout_multiplier(write_timeout_multiplier_) {} }; /*! * Class that provides a portable serial port interface. */ class Serial { public: /*! * Creates a Serial object and opens the port if a port is specified, * otherwise it remains closed until serial::Serial::open is called. * * \param port A std::string containing the address of the serial port, * which would be something like 'COM1' on Windows and '/dev/ttyS0' * on Linux. * * \param baudrate An unsigned 32-bit integer that represents the baudrate * * \param timeout A serial::Timeout struct that defines the timeout * conditions for the serial port. \see serial::Timeout * * \param bytesize Size of each byte in the serial transmission of data, * default is eightbits, possible values are: fivebits, sixbits, sevenbits, * eightbits * * \param parity Method of parity, default is parity_none, possible values * are: parity_none, parity_odd, parity_even * * \param stopbits Number of stop bits used, default is stopbits_one, * possible values are: stopbits_one, stopbits_one_point_five, stopbits_two * * \param flowcontrol Type of flowcontrol used, default is * flowcontrol_none, possible values are: flowcontrol_none, * flowcontrol_software, flowcontrol_hardware * * \throw serial::PortNotOpenedException * \throw serial::IOException * \throw std::invalid_argument */ Serial (const std::string &port = "", uint32_t baudrate = 9600, Timeout timeout = Timeout(), bytesize_t bytesize = eightbits, parity_t parity = parity_none, stopbits_t stopbits = stopbits_one, flowcontrol_t flowcontrol = flowcontrol_none); /*! Destructor */ virtual ~Serial (); /*! * Opens the serial port as long as the port is set and the port isn't * already open. * * If the port is provided to the constructor then an explicit call to open * is not needed. * * \see Serial::Serial * * \throw std::invalid_argument * \throw serial::SerialException * \throw serial::IOException */ void open (); /*! Gets the open status of the serial port. * * \return Returns true if the port is open, false otherwise. */ bool isOpen () const; /*! Closes the serial port. */ void close (); /*! Return the number of characters in the buffer. */ size_t available (); /*! Block until there is serial data to read or read_timeout_constant * number of milliseconds have elapsed. The return value is true when * the function exits with the port in a readable state, false otherwise * (due to timeout or select interruption). */ bool waitReadable (); /*! Block for a period of time corresponding to the transmission time of * count characters at present serial settings. This may be used in con- * junction with waitReadable to read larger blocks of data from the * port. */ void waitByteTimes (size_t count); /*! Read a given amount of bytes from the serial port into a given buffer. * * The read function will return in one of three cases: * * The number of requested bytes was read. * * In this case the number of bytes requested will match the size_t * returned by read. * * A timeout occurred, in this case the number of bytes read will not * match the amount requested, but no exception will be thrown. One of * two possible timeouts occurred: * * The inter byte timeout expired, this means that number of * milliseconds elapsed between receiving bytes from the serial port * exceeded the inter byte timeout. * * The total timeout expired, which is calculated by multiplying the * read timeout multiplier by the number of requested bytes and then * added to the read timeout constant. If that total number of * milliseconds elapses after the initial call to read a timeout will * occur. * * An exception occurred, in this case an actual exception will be thrown. * * \param buffer An uint8_t array of at least the requested size. * \param size A size_t defining how many bytes to be read. * * \return A size_t representing the number of bytes read as a result of the * call to read. * * \throw serial::PortNotOpenedException * \throw serial::SerialException */ size_t read (uint8_t *buffer, size_t size); /*! Read a given amount of bytes from the serial port into a give buffer. * * \param buffer A reference to a std::vector of uint8_t. * \param size A size_t defining how many bytes to be read. * * \return A size_t representing the number of bytes read as a result of the * call to read. * * \throw serial::PortNotOpenedException * \throw serial::SerialException */ size_t read (std::vector &buffer, size_t size = 1); /*! Read a given amount of bytes from the serial port into a give buffer. * * \param buffer A reference to a std::string. * \param size A size_t defining how many bytes to be read. * * \return A size_t representing the number of bytes read as a result of the * call to read. * * \throw serial::PortNotOpenedException * \throw serial::SerialException */ size_t read (std::string &buffer, size_t size = 1); /*! Read a given amount of bytes from the serial port and return a string * containing the data. * * \param size A size_t defining how many bytes to be read. * * \return A std::string containing the data read from the port. * * \throw serial::PortNotOpenedException * \throw serial::SerialException */ std::string read (size_t size = 1); /*! Reads in a line or until a given delimiter has been processed. * * Reads from the serial port until a single line has been read. * * \param buffer A std::string reference used to store the data. * \param size A maximum length of a line, defaults to 65536 (2^16) * \param eol A string to match against for the EOL. * * \return A size_t representing the number of bytes read. * * \throw serial::PortNotOpenedException * \throw serial::SerialException */ size_t readline (std::string &buffer, size_t size = 65536, std::string eol = "\n"); /*! Reads in a line or until a given delimiter has been processed. * * Reads from the serial port until a single line has been read. * * \param size A maximum length of a line, defaults to 65536 (2^16) * \param eol A string to match against for the EOL. * * \return A std::string containing the line. * * \throw serial::PortNotOpenedException * \throw serial::SerialException */ std::string readline (size_t size = 65536, std::string eol = "\n"); /*! Reads in multiple lines until the serial port times out. * * This requires a timeout > 0 before it can be run. It will read until a * timeout occurs and return a list of strings. * * \param size A maximum length of combined lines, defaults to 65536 (2^16) * * \param eol A string to match against for the EOL. * * \return A vector containing the lines. * * \throw serial::PortNotOpenedException * \throw serial::SerialException */ std::vector readlines (size_t size = 65536, std::string eol = "\n"); /*! Write a string to the serial port. * * \param data A const reference containing the data to be written * to the serial port. * * \param size A size_t that indicates how many bytes should be written from * the given data buffer. * * \return A size_t representing the number of bytes actually written to * the serial port. * * \throw serial::PortNotOpenedException * \throw serial::SerialException * \throw serial::IOException */ size_t write (const uint8_t *data, size_t size); /*! Write a string to the serial port. * * \param data A const reference containing the data to be written * to the serial port. * * \return A size_t representing the number of bytes actually written to * the serial port. * * \throw serial::PortNotOpenedException * \throw serial::SerialException * \throw serial::IOException */ size_t write (const std::vector &data); /*! Write a string to the serial port. * * \param data A const reference containing the data to be written * to the serial port. * * \return A size_t representing the number of bytes actually written to * the serial port. * * \throw serial::PortNotOpenedException * \throw serial::SerialException * \throw serial::IOException */ size_t write (const std::string &data); /*! Sets the serial port identifier. * * \param port A const std::string reference containing the address of the * serial port, which would be something like 'COM1' on Windows and * '/dev/ttyS0' on Linux. * * \throw std::invalid_argument */ void setPort (const std::string &port); /*! Gets the serial port identifier. * * \see Serial::setPort * * \throw std::invalid_argument */ std::string getPort () const; /*! Sets the timeout for reads and writes using the Timeout struct. * * There are two timeout conditions described here: * * The inter byte timeout: * * The inter_byte_timeout component of serial::Timeout defines the * maximum amount of time, in milliseconds, between receiving bytes on * the serial port that can pass before a timeout occurs. Setting this * to zero will prevent inter byte timeouts from occurring. * * Total time timeout: * * The constant and multiplier component of this timeout condition, * for both read and write, are defined in serial::Timeout. This * timeout occurs if the total time since the read or write call was * made exceeds the specified time in milliseconds. * * The limit is defined by multiplying the multiplier component by the * number of requested bytes and adding that product to the constant * component. In this way if you want a read call, for example, to * timeout after exactly one second regardless of the number of bytes * you asked for then set the read_timeout_constant component of * serial::Timeout to 1000 and the read_timeout_multiplier to zero. * This timeout condition can be used in conjunction with the inter * byte timeout condition with out any problems, timeout will simply * occur when one of the two timeout conditions is met. This allows * users to have maximum control over the trade-off between * responsiveness and efficiency. * * Read and write functions will return in one of three cases. When the * reading or writing is complete, when a timeout occurs, or when an * exception occurs. * * A timeout of 0 enables non-blocking mode. * * \param timeout A serial::Timeout struct containing the inter byte * timeout, and the read and write timeout constants and multipliers. * * \see serial::Timeout */ void setTimeout (Timeout &timeout); /*! Sets the timeout for reads and writes. */ void setTimeout (uint32_t inter_byte_timeout, uint32_t read_timeout_constant, uint32_t read_timeout_multiplier, uint32_t write_timeout_constant, uint32_t write_timeout_multiplier) { Timeout timeout(inter_byte_timeout, read_timeout_constant, read_timeout_multiplier, write_timeout_constant, write_timeout_multiplier); return setTimeout(timeout); } /*! Gets the timeout for reads in seconds. * * \return A Timeout struct containing the inter_byte_timeout, and read * and write timeout constants and multipliers. * * \see Serial::setTimeout */ Timeout getTimeout () const; /*! Sets the baudrate for the serial port. * * Possible baudrates depends on the system but some safe baudrates include: * 110, 300, 600, 1200, 2400, 4800, 9600, 14400, 19200, 28800, 38400, 56000, * 57600, 115200 * Some other baudrates that are supported by some comports: * 128000, 153600, 230400, 256000, 460800, 500000, 921600 * * \param baudrate An integer that sets the baud rate for the serial port. * * \throw std::invalid_argument */ void setBaudrate (uint32_t baudrate); /*! Gets the baudrate for the serial port. * * \return An integer that sets the baud rate for the serial port. * * \see Serial::setBaudrate * * \throw std::invalid_argument */ uint32_t getBaudrate () const; /*! Sets the bytesize for the serial port. * * \param bytesize Size of each byte in the serial transmission of data, * default is eightbits, possible values are: fivebits, sixbits, sevenbits, * eightbits * * \throw std::invalid_argument */ void setBytesize (bytesize_t bytesize); /*! Gets the bytesize for the serial port. * * \see Serial::setBytesize * * \throw std::invalid_argument */ bytesize_t getBytesize () const; /*! Sets the parity for the serial port. * * \param parity Method of parity, default is parity_none, possible values * are: parity_none, parity_odd, parity_even * * \throw std::invalid_argument */ void setParity (parity_t parity); /*! Gets the parity for the serial port. * * \see Serial::setParity * * \throw std::invalid_argument */ parity_t getParity () const; /*! Sets the stopbits for the serial port. * * \param stopbits Number of stop bits used, default is stopbits_one, * possible values are: stopbits_one, stopbits_one_point_five, stopbits_two * * \throw std::invalid_argument */ void setStopbits (stopbits_t stopbits); /*! Gets the stopbits for the serial port. * * \see Serial::setStopbits * * \throw std::invalid_argument */ stopbits_t getStopbits () const; /*! Sets the flow control for the serial port. * * \param flowcontrol Type of flowcontrol used, default is flowcontrol_none, * possible values are: flowcontrol_none, flowcontrol_software, * flowcontrol_hardware * * \throw std::invalid_argument */ void setFlowcontrol (flowcontrol_t flowcontrol); /*! Gets the flow control for the serial port. * * \see Serial::setFlowcontrol * * \throw std::invalid_argument */ flowcontrol_t getFlowcontrol () const; /*! Flush the input and output buffers */ void flush (); /*! Flush only the input buffer */ void flushInput (); /*! Flush only the output buffer */ void flushOutput (); /*! Sends the RS-232 break signal. See tcsendbreak(3). */ void sendBreak (int duration); /*! Set the break condition to a given level. Defaults to true. */ void setBreak (bool level = true); /*! Set the RTS handshaking line to the given level. Defaults to true. */ void setRTS (bool level = true); /*! Set the DTR handshaking line to the given level. Defaults to true. */ void setDTR (bool level = true); /*! * Blocks until CTS, DSR, RI, CD changes or something interrupts it. * * Can throw an exception if an error occurs while waiting. * You can check the status of CTS, DSR, RI, and CD once this returns. * Uses TIOCMIWAIT via ioctl if available (mostly only on Linux) with a * resolution of less than +-1ms and as good as +-0.2ms. Otherwise a * polling method is used which can give +-2ms. * * \return Returns true if one of the lines changed, false if something else * occurred. * * \throw SerialException */ bool waitForChange (); /*! Returns the current status of the CTS line. */ bool getCTS (); /*! Returns the current status of the DSR line. */ bool getDSR (); /*! Returns the current status of the RI line. */ bool getRI (); /*! Returns the current status of the CD line. */ bool getCD (); private: // Disable copy constructors Serial(const Serial&); Serial& operator=(const Serial&); // Pimpl idiom, d_pointer class SerialImpl; SerialImpl *pimpl_; // Scoped Lock Classes class ScopedReadLock; class ScopedWriteLock; // Read common function size_t read_ (uint8_t *buffer, size_t size); // Write common function size_t write_ (const uint8_t *data, size_t length); }; class SerialException : public std::exception { // Disable copy constructors SerialException& operator=(const SerialException&); std::string e_what_; public: SerialException (const char *description) { std::stringstream ss; ss << "SerialException " << description << " failed."; e_what_ = ss.str(); } SerialException (const SerialException& other) : e_what_(other.e_what_) {} virtual ~SerialException() throw() {} virtual const char* what () const throw () { return e_what_.c_str(); } }; class IOException : public std::exception { // Disable copy constructors IOException& operator=(const IOException&); std::string file_; int line_; std::string e_what_; int errno_; public: explicit IOException (std::string file, int line, int errnum) : file_(file), line_(line), errno_(errnum) { std::stringstream ss; #if defined(_WIN32) && !defined(__MINGW32__) char error_str [1024]; strerror_s(error_str, 1024, errnum); #else char * error_str = strerror(errnum); #endif ss << "IO Exception (" << errno_ << "): " << error_str; ss << ", file " << file_ << ", line " << line_ << "."; e_what_ = ss.str(); } explicit IOException (std::string file, int line, const char * description) : file_(file), line_(line), errno_(0) { std::stringstream ss; ss << "IO Exception: " << description; ss << ", file " << file_ << ", line " << line_ << "."; e_what_ = ss.str(); } virtual ~IOException() throw() {} IOException (const IOException& other) : line_(other.line_), e_what_(other.e_what_), errno_(other.errno_) {} int getErrorNumber () const { return errno_; } virtual const char* what () const throw () { return e_what_.c_str(); } }; class PortNotOpenedException : public std::exception { // Disable copy constructors const PortNotOpenedException& operator=(PortNotOpenedException); std::string e_what_; public: PortNotOpenedException (const char * description) { std::stringstream ss; ss << "PortNotOpenedException " << description << " failed."; e_what_ = ss.str(); } PortNotOpenedException (const PortNotOpenedException& other) : e_what_(other.e_what_) {} virtual ~PortNotOpenedException() throw() {} virtual const char* what () const throw () { return e_what_.c_str(); } }; /*! * Structure that describes a serial device. */ struct PortInfo { /*! Address of the serial port (this can be passed to the constructor of Serial). */ std::string port; /*! Human readable description of serial device if available. */ std::string description; /*! Hardware ID (e.g. VID:PID of USB serial devices) or "n/a" if not available. */ std::string hardware_id; }; /* Lists the serial ports available on the system * * Returns a vector of available serial ports, each represented * by a serial::PortInfo data structure: * * \return vector of serial::PortInfo. */ std::vector list_ports(); } // namespace serial #endif