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serialqueue.hpp
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serialqueue.hpp
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// SPDX-License-Identifier: GPL-3.0-or-later
//
// Copyright (c) 2013-2023 plan44.ch / Lukas Zeller, Zurich, Switzerland
//
// Author: Lukas Zeller <[email protected]>
//
// This file is part of p44utils.
//
// p44utils is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// p44utils is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with p44utils. If not, see <http://www.gnu.org/licenses/>.
//
#ifndef __p44utils__serialqueue__
#define __p44utils__serialqueue__
#include "p44utils_main.hpp"
#include <time.h>
#include <list>
#include "operationqueue.hpp"
#include "serialcomm.hpp"
using namespace std;
namespace p44 {
/// acceptBytes() can return this for a queue with an accept buffer to reject
/// accepting bytes now because more are needed.
#define NOT_ENOUGH_BYTES -1
class SQError : public Error
{
public:
// Errors
typedef enum {
OK,
Transmit,
} ErrorCodes;
static const char *domain() { return "SerialQueue"; };
virtual const char *getErrorDomain() const { return SQError::domain(); };
SQError(ErrorCodes aError) : Error(ErrorCode(aError)) {};
};
class SerialOperation;
class SerialOperationQueue;
class SerialOperationSendAndReceive;
typedef boost::intrusive_ptr<SerialOperation> SerialOperationPtr;
/// SerialOperation transmitter
typedef boost::function<size_t (size_t aNumBytes, const uint8_t *aBytes)> SerialOperationTransmitter;
/// Serial operation
class SerialOperation : public Operation
{
typedef Operation inherited;
protected:
SerialOperationTransmitter mTransmitter;
public:
/// set transmitter
/// @param aTransmitter callback to be used to transmit data
void setTransmitter(SerialOperationTransmitter aTransmitter);
/// is called to deliver received bytes
/// @param aNumBytes number of bytes ready for accepting
/// @param aBytes pointer to bytes buffer
/// @return number of bytes operation could accept, 0 if operation does accept none,
/// NOT_ENOUGH_BYTES if operation would accept bytes, but not enough of them are ready.
/// Note that NOT_ENOUGH_BYTES may only be used when the SerialQueue has a
/// buffer for re-assembling messages (see SerialQueue::setAcceptBuffer())
virtual ssize_t acceptBytes(size_t aNumBytes, uint8_t *aBytes);
};
/// Send operation
class SerialOperationSend : public SerialOperation
{
typedef SerialOperation inherited;
size_t mDataSize;
size_t mAppendIndex;
uint8_t *mDataP;
public:
/// constructor
SerialOperationSend();
/// destructor
virtual ~SerialOperationSend();
/// set how much data to send
/// @param aDataSize size of data buffer to prepare
void setDataSize(size_t aDataSize);
/// clear all data
void clearData();
/// append data to buffer
/// @param aNumBytes number of bytes to add
/// @param aBytes bytes to append
void appendData(size_t aNumBytes, uint8_t *aBytes);
/// append single byte to buffer
/// @param aByte byte to append
void appendByte(uint8_t aByte);
/// will be called by queue when data can be sent
virtual bool initiate();
};
typedef boost::intrusive_ptr<SerialOperationSend> SerialOperationSendPtr;
/// receive operation
class SerialOperationReceive : public SerialOperation
{
typedef SerialOperation inherited;
size_t mExpectedBytes;
uint8_t *mDataP;
size_t mDataIndex;
public:
/// constructor
SerialOperationReceive();
/// destructor
virtual ~SerialOperationReceive();
/// set how much data to send
/// @param aExpectedBytes how many bytes we expect to receive
void setExpectedBytes(size_t aExpectedBytes);
/// clear all data
void clearData();
/// get size of data received
/// @return size of data accessible via getDataP()
size_t getDataSize() { return mDataIndex; };
/// get data buffer pointer
/// @return pointer to data
uint8_t *getDataP() { return mDataP; };
/// accepts bytes into buffer until expected number
virtual ssize_t acceptBytes(size_t aNumBytes, uint8_t *aBytes);
/// returns true when enough bytes were received
virtual bool hasCompleted();
/// abort
virtual void abortOperation(ErrorPtr aError);
};
typedef boost::intrusive_ptr<SerialOperationReceive> SerialOperationReceivePtr;
/// SerialOperation receiver
typedef boost::function<size_t (size_t aMaxBytes, uint8_t *aBytes)> SerialOperationReceiver;
/// SerialOperation extra bytes handler
typedef boost::function<ssize_t (size_t aNumBytes, const uint8_t *aBytes)> SerialOperationExtraBytesHandler;
/// Serial operation queue
class SerialOperationQueue : public OperationQueue
{
typedef OperationQueue inherited;
SerialOperationTransmitter mTransmitter;
SerialOperationReceiver mReceiver;
SerialOperationExtraBytesHandler mExtraBytesHandler;
size_t mAcceptBufferSize;
size_t mBufferedBytes;
uint8_t *mAcceptBufferP;
public:
/// the serial communication channel
SerialCommPtr mSerialComm;
/// create operation queue linked into specified Synchronous IO mainloop
SerialOperationQueue(MainLoop &aMainLoop = MainLoop::currentMainLoop());
/// destructor
virtual ~SerialOperationQueue();
/// set transmitter to be used for all operations (for sending data to hardware)
void setTransmitter(SerialOperationTransmitter aTransmitter);
/// set receiver (which actually gets data from hardware)
void setReceiver(SerialOperationReceiver aReceiver);
/// set extra byte handler (which gets "transmitted" extra bytes received from hardware and not accepted by queued operations)
void setExtraBytesHandler(SerialOperationExtraBytesHandler aExtraBytesHandler);
/// set an accept buffer
/// @param aBufferSize size of buffer that will hold received bytes until they can be processed.
/// setting a buffer size allows operations and acceptExtraBytes() to not accept bytes when there are to few bytes ready
void setAcceptBuffer(size_t aBufferSize);
/// queue a new operation
/// @param aOperation the serial IO operation to queue
void queueSerialOperation(SerialOperationPtr aOperation);
/// called to process extra bytes after all pending operations have processed their bytes
/// @param aNumBytes number of bytes ready to accept
/// @param aBytes bytes ready to accept
/// @return number of extra bytes that could be accepted, 0 if none, NOT_ENOUGH_BYTES if extra bytes would be accepted,
/// but not enough of them are ready. Note that NOT_ENOUGH_BYTES may only be used when the SerialQueue has a
/// buffer for re-assembling messages (see setAcceptBuffer())
/// @note if setExtraBytesHandler() has set a handler, this is called here. Otherwise, the baseclass' implementation
/// always returns 0 (does not accept any extra bytes by default)
virtual ssize_t acceptExtraBytes(size_t aNumBytes, uint8_t *aBytes);
/// standard transmitter
size_t standardTransmitter(size_t aNumBytes, const uint8_t *aBytes);
/// standard receiver
size_t standardReceiver(size_t aMaxBytes, uint8_t *aBytes);
private:
/// base class implementation: deliver bytes to the most recent waiting operation,
/// call acceptExtraBytes if bytes are left after all operations had chance to accept bytes.
virtual size_t acceptBytes(size_t aNumBytes, uint8_t *aBytes);
/// FdComm handler
void receiveHandler(ErrorPtr aError);
};
} // namespace p44
#endif /* defined(__p44utils__serialqueue__) */