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serialcomm.cpp
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serialcomm.cpp
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// SPDX-License-Identifier: GPL-3.0-or-later
//
// Copyright (c) 2013-2024 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/>.
//
// File scope debugging options
// - Set ALWAYS_DEBUG to 1 to enable DBGLOG output even in non-DEBUG builds of this file
#define ALWAYS_DEBUG 0
// - set FOCUSLOGLEVEL to non-zero log level (usually, 5,6, or 7==LOG_DEBUG) to get focus (extensive logging) for this file
// Note: must be before including "logger.hpp" (or anything that includes "logger.hpp")
#define FOCUSLOGLEVEL 7
#include "serialcomm.hpp"
using namespace p44;
#if ENABLE_SERIAL_SCRIPT_FUNCS
#include "application.hpp" // for userlevel check
using namespace P44Script;
#endif
#if defined(__linux__)
#include <linux/serial.h>
#endif
#define DEFAULT_OPEN_FLAGS (O_RDWR)
SerialComm::SerialComm(MainLoop &aMainLoop) :
inherited(aMainLoop),
mConnectionPort(0),
mBaudRate(9600),
mCharSize(8),
mParityEnable(false),
mEvenParity(false),
mTwoStopBits(false),
mHardwareHandshake(false),
mConnectionOpen(false),
mReconnecting(false),
mUnknownReadyBytes(false),
mDeviceOpenFlags(DEFAULT_OPEN_FLAGS)
{
}
SerialComm::~SerialComm()
{
closeConnection();
}
bool SerialComm::parseConnectionSpecification(
const char* aConnectionSpec, uint16_t aDefaultPort, const char *aDefaultCommParams,
string &aConnectionPath,
int &aBaudRate,
int &aCharSize,
bool &aParityEnable,
bool &aEvenParity,
bool &aTwoStopBits,
bool &aHardwareHandshake,
uint16_t &aConnectionPort
)
{
// device or IP host?
aConnectionPort = 0; // means: serial
aConnectionPath.clear();
aBaudRate = 9600;
aCharSize = 8;
aParityEnable = false;
aEvenParity = false;
aTwoStopBits = false;
aHardwareHandshake = false;
if (aConnectionSpec && *aConnectionSpec) {
aConnectionPath = aConnectionSpec;
if (aConnectionSpec[0]=='/') {
// serial device
string opt = nonNullCStr(aDefaultCommParams);
size_t n = aConnectionPath.find(":");
if (n!=string::npos) {
// explicit specification of communication params: baudrate, bits, parity
opt = aConnectionPath.substr(n+1,string::npos);
aConnectionPath.erase(n,string::npos);
}
if (opt.size()>0) {
// get communication options : [baud rate][,[bits][,[parity][,[stopbits][,[H]]]]]
// or for not doing any termio setting : none
string part;
const char *p = opt.c_str();
if (nextPart(p, part, ',')) {
// baud rate
if (uequals("none", part)) {
// just char device, do not do any termios
aBaudRate = -1; // signal "no termios" via negative baud rate
}
else {
sscanf(part.c_str(), "%d", &aBaudRate);
if (nextPart(p, part, ',')) {
// bits
sscanf(part.c_str(), "%d", &aCharSize);
if (nextPart(p, part, ',')) {
// parity: O,E,N
if (part.size()>0) {
aParityEnable = false;
if (part[0]=='E') {
aParityEnable = true;
aEvenParity = true;
}
else if (part[0]=='O') {
aParityEnable = false;
aEvenParity = false;
}
}
if (nextPart(p, part, ',')) {
// stopbits: 1 or 2
if (part.size()>0) {
aTwoStopBits = part[0]=='2';
}
if (nextPart(p, part, ',')) {
// hardware handshake?
if (part.size()>0) {
aHardwareHandshake = part[0]=='H';
}
}
}
}
}
}
}
}
return true; // real serial
}
else {
// IP host
aConnectionPort = aDefaultPort; // set default in case aConnectionSpec does not have a path number
splitHost(aConnectionSpec, &aConnectionPath, &aConnectionPort);
return false; // no real serial
}
}
return false; // no real serial either
}
void SerialComm::setConnectionSpecification(const char* aConnectionSpec, uint16_t aDefaultPort, const char *aDefaultCommParams)
{
parseConnectionSpecification(
aConnectionSpec, aDefaultPort, aDefaultCommParams,
mConnectionPath,
mBaudRate,
mCharSize,
mParityEnable,
mEvenParity,
mTwoStopBits,
mHardwareHandshake,
mConnectionPort
);
closeConnection();
}
void SerialComm::setDeviceOpParams(int aDeviceOpenFlags, bool aUnknownReadyBytes)
{
mDeviceOpenFlags = aDeviceOpenFlags!=0 ? aDeviceOpenFlags : DEFAULT_OPEN_FLAGS;
mUnknownReadyBytes = aUnknownReadyBytes;
}
// Setting baud rate on Linux, see sample code at the bottom of the tty_ioctl man page:
// https://www.man7.org/linux/man-pages/man4/tty_ioctl.4.html
#if defined(BOTHER)
#define OTHERBAUDRATE (BOTHER)
#elif P44_BUILD_OW
#define OTHERBAUDRATE (CBAUDEX)
#endif
ErrorPtr SerialComm::establishConnection()
{
if (!mConnectionOpen) {
// Open connection to bridge
mConnectionFd = 0;
int res;
#if USE_TERMIOS2
struct termios2 newTermIO;
#else
struct termios newTermIO;
#endif
// check type of connection
mDeviceConnection = mConnectionPath[0]=='/';
if (mDeviceConnection) {
// char device code
int baudRateCode = -1; // invalid
if (nativeSerialPort()) {
// actual serial port we want to set termios params
// - convert the baudrate
switch (mBaudRate) {
case 50 : baudRateCode = B50; break;
case 75 : baudRateCode = B75; break;
case 110 : baudRateCode = B110; break;
case 134 : baudRateCode = B134; break;
case 150 : baudRateCode = B150; break;
case 200 : baudRateCode = B200; break;
case 300 : baudRateCode = B300; break;
case 600 : baudRateCode = B600; break;
case 1200 : baudRateCode = B1200; break;
case 1800 : baudRateCode = B1800; break;
case 2400 : baudRateCode = B2400; break;
case 4800 : baudRateCode = B4800; break;
case 9600 : baudRateCode = B9600; break;
case 19200 : baudRateCode = B19200; break;
case 38400 : baudRateCode = B38400; break;
case 57600 : baudRateCode = B57600; break;
case 115200 : baudRateCode = B115200; break;
case 230400 : baudRateCode = B230400; break;
#if defined(__linux__)
case 460800 : baudRateCode = B460800; break;
case 500000 : baudRateCode = B500000; break;
case 576000 : baudRateCode = B576000; break;
case 921600 : baudRateCode = B921600; break;
case 1000000 : baudRateCode = B1000000; break;
case 1152000 : baudRateCode = B1152000; break;
case 1500000 : baudRateCode = B1500000; break;
case 2000000 : baudRateCode = B2000000; break;
case 2500000 : baudRateCode = B2500000; break;
case 3000000 : baudRateCode = B3000000; break;
case 3500000 : baudRateCode = B3500000; break;
case 4000000 : baudRateCode = B4000000; break;
#endif
#ifdef OTHERBAUDRATE
default : baudRateCode = OTHERBAUDRATE; break;
#endif
}
if (baudRateCode<=0) {
return ErrorPtr(new SerialCommError(SerialCommError::UnknownBaudrate));
}
}
// assume it's a serial port
mConnectionFd = open(mConnectionPath.c_str(), mDeviceOpenFlags|O_NOCTTY);
if (mConnectionFd<0) {
return SysError::errNo("Cannot open serial port: ");
}
if (nativeSerialPort()) {
// actual serial port we want to set termios params
// - save current port settings
#if USE_TERMIOS2
ioctl(mConnectionFd, TCGETS2, &mOldTermIO);
#elif defined(TCGETS)
ioctl(mConnectionFd, TCGETS, &mOldTermIO);
#else
tcgetattr(mConnectionFd, &mOldTermIO); // save current port settings
#endif
// see "man termios" for details
memset(&newTermIO, 0, sizeof(newTermIO));
// - 8-N-1,
newTermIO.c_cflag =
CLOCAL | CREAD | // no modem control lines (local), reading enabled
(mCharSize==5 ? CS5 : (mCharSize==6 ? CS6 : (mCharSize==7 ? CS7 : CS8))) | // char size
(mTwoStopBits ? CSTOPB : 0) | // stop bits
(mParityEnable ? PARENB | (mEvenParity ? 0 : PARODD) : 0) | // parity
(mHardwareHandshake ? CRTSCTS : 0); // hardware handshake
// - ignore parity errors
newTermIO.c_iflag =
mParityEnable ? INPCK : IGNPAR; // check or ignore parity
// - no output control
newTermIO.c_oflag = 0;
// - no input control (non-canonical)
newTermIO.c_lflag = 0;
// - no inter-char time
newTermIO.c_cc[VTIME] = 0; /* inter-character timer unused */
// - receive every single char seperately
newTermIO.c_cc[VMIN] = 1; /* blocking read until 1 chars received */
// - baud rate
#ifdef OTHERBAUDRATE
if (baudRateCode==OTHERBAUDRATE) {
// we have a non-standard baudrate
#if defined(BOTHER)
FOCUSLOG("SerialComm: requested custom baud rate = %d -> setting with BOTHER to c_ispeed/c_ospeed", mBaudRate);
// Linux: set the baudrate directly via BOTHER
// - output
newTermIO.c_cflag &= ~CBAUD; // not necessary because we cleared all flags
newTermIO.c_cflag |= BOTHER;
newTermIO.c_ospeed = mBaudRate;
// - input
#ifdef IBSHIFT
newTermIO.c_cflag &= ~(CBAUD << IBSHIFT); // not necessary because we cleared all flags
newTermIO.c_cflag |= BOTHER << IBSHIFT;
#endif
newTermIO.c_ispeed = mBaudRate;
#elif P44_BUILD_OW
// try the alias trick
newTermIO.c_cflag &= ~(CBAUD | CBAUDEX);
newTermIO.c_cflag |= B38400;
// - actual baud rate magic happens after tcsetattr(), see below
#endif // P44_BUILD_OW
}
else
#endif // OTHERBAUDRATE
{
// Most compatible way to set standard baudrates
// Note: as this ors into c_cflag, this must be after setting c_cflag initial value
cfsetspeed(&newTermIO, baudRateCode);
}
// - set new params
tcflush(mConnectionFd, TCIFLUSH);
#if USE_TERMIOS2
res = ioctl(mConnectionFd, TCSETS2, &newTermIO);
#elif defined(TCGETS)
res = ioctl(mConnectionFd, TCSETS, &newTermIO);
#else
res = tcsetattr(mConnectionFd, TCSANOW, &newTermIO);
#endif
if (res<0) {
return SysError::errNo("Error setting serial port parameters: ");
}
// - baud rate settings needed after tcsetattr()
#ifdef OTHERBAUDRATE
if (baudRateCode==OTHERBAUDRATE && mBaudRate>0) {
#if P44_BUILD_OW
struct serial_struct serial;
if (ioctl(mConnectionFd, TIOCGSERIAL, &serial)) return SysError::errNo("Error getting with TIOCGSERIAL: ");
serial.flags &= ~ASYNC_SPD_MASK;
serial.flags |= ASYNC_SPD_CUST;
serial.custom_divisor = serial.baud_base / mBaudRate;
FOCUSLOG("SerialComm: requested custom baud rate = %d, serial.baud_base = %d -> serial.custom_divisor = %d, ACTUAL baud = %d",
mBaudRate, serial.baud_base, serial.custom_divisor, serial.baud_base/serial.custom_divisor
);
if (ioctl(mConnectionFd, TIOCSSERIAL, &serial)) return SysError::errNo("Error setting with TIOCSSERIAL: ");
#endif // P44_BUILD_OW
}
#endif
}
}
else {
// assume it's an IP address or hostname
struct sockaddr_in conn_addr;
if ((mConnectionFd = socket(AF_INET, SOCK_STREAM, 0)) < 0) {
return SysError::errNo("Cannot create socket: ");
}
// prepare IP address
memset(&conn_addr, '0', sizeof(conn_addr));
conn_addr.sin_family = AF_INET;
conn_addr.sin_port = htons(mConnectionPort);
struct hostent *server;
server = gethostbyname(mConnectionPath.c_str());
if (server == NULL) {
close(mConnectionFd);
return ErrorPtr(new SerialCommError(SerialCommError::InvalidHost));
}
memcpy((void *)&conn_addr.sin_addr.s_addr, (void *)(server->h_addr), sizeof(in_addr_t));
if ((res = connect(mConnectionFd, (struct sockaddr *)&conn_addr, sizeof(conn_addr))) < 0) {
close(mConnectionFd);
return SysError::errNo("Cannot open socket: ");
}
}
// successfully opened
mConnectionOpen = true;
// now set FD for FdComm to monitor
setFd(mConnectionFd, mUnknownReadyBytes);
}
mReconnecting = false; // successfully opened, don't try to reconnect any more
return ErrorPtr(); // ok
}
bool SerialComm::requestConnection()
{
ErrorPtr err = establishConnection();
if (Error::notOK(err)) {
if (!mReconnecting) {
LOG(LOG_ERR, "SerialComm: requestConnection() could not open connection now: %s -> entering background retry mode", err->text());
mReconnecting = true;
mReconnectTicket.executeOnce(boost::bind(&SerialComm::reconnectHandler, this), 5*Second);
}
return false;
}
return true;
}
void SerialComm::closeConnection()
{
mReconnecting = false; // explicit close, don't try to reconnect any more
if (mConnectionOpen) {
// stop monitoring
setFd(-1);
// restore IO settings
if (nativeSerialPort()) {
#if USE_TERMIOS2
ioctl(mConnectionFd, TCSETS2, &mOldTermIO);
#elif defined(TCGETS)
ioctl(mConnectionFd, TCSETS, &mOldTermIO);
#else
tcsetattr(mConnectionFd, TCSANOW, &mOldTermIO);
#endif
}
// close
close(mConnectionFd);
// closed
mConnectionOpen = false;
}
}
bool SerialComm::connectionIsOpen()
{
return mConnectionOpen;
}
// MARK: - break
#define SENDBREAK_WORKS_WITH_SHORT_BREAK (!P44_BUILD_OW) // assume it does, normally - but does not on OpenWrt Linux for MT7688 SoC
void SerialComm::sendBreak(MLMicroSeconds aDuration)
{
if (!connectionIsOpen() || !nativeSerialPort()) return; // ignore
#if SENDBREAK_WORKS_WITH_SHORT_BREAK || !defined(TIOCGSERIAL)
// tcsendbreak accepts duration (or we don't have means to mess with baud rate)
int breaklen = 0; // standard break, which should be >=0.25sec and <=0.5sec
if (aDuration>0) breaklen = static_cast<int>((aDuration+MilliSecond-1)/MilliSecond);
FOCUSLOG("- tcsendbreak with duration=%d", breaklen);
tcsendbreak(mConnectionFd, breaklen);
#else
if (aDuration==0) {
// standard break, which should be >=0.25sec and <=0.5sec
FOCUSLOG("- tcsendbreak with standard duration");
tcsendbreak(mConnectionFd, 0);
}
else {
// non-standard duration, need to fake it
// - drain
FOCUSLOG("- will drain before break");
tcdrain(mConnectionFd);
FOCUSLOG("- did drain before break");
// - manipulate baud rate
struct serial_struct oldserial;
struct serial_struct serial;
if (ioctl(mConnectionFd, TIOCGSERIAL, &serial)) return;
memcpy(&oldserial, &serial, sizeof(struct serial_struct));
serial.flags &= ~ASYNC_SPD_MASK;
serial.flags |= ASYNC_SPD_CUST;
// start
serial.custom_divisor = (int)((MLMicroSeconds)serial.baud_base / 9 * aDuration / Second);
FOCUSLOG("- will set fake baud for break: serial.custom_divisor = %d", serial.custom_divisor);
if (ioctl(mConnectionFd, TIOCSSERIAL, &serial)) return;
FOCUSLOG("- did set fake baud rate");
// send one 0x00 with slower baudrate to fake a BREAK
uint8_t b = 0;
write(mConnectionFd, &b, 1);
FOCUSLOG("- did write a 0x00 byte");
// Note: do NOT drain here, it consumes enormous time on MT7688. Just wait long enough, we drained
// already above, so timing should be ok with just waiting
// await break to go out
MainLoop::sleep(aDuration);
FOCUSLOG("- did sleep for the break duration");
// restore actual baud rate
FOCUSLOG("- will restore actual baud rate after break: serial.custom_divisor = %d", oldserial.custom_divisor)
if (ioctl(mConnectionFd, TIOCSSERIAL, &oldserial)) return;
FOCUSLOG("- did restore the original baud rate");
}
#endif
}
// MARK: - handshake signal control
void SerialComm::setDTR(bool aActive)
{
if (!connectionIsOpen() || !nativeSerialPort()) return; // ignore
int iFlags = TIOCM_DTR;
ioctl(mConnectionFd, aActive ? TIOCMBIS : TIOCMBIC, &iFlags);
}
void SerialComm::setRTS(bool aActive)
{
if (!connectionIsOpen() || !nativeSerialPort()) return; // ignore
int iFlags = TIOCM_RTS;
ioctl(mConnectionFd, aActive ? TIOCMBIS : TIOCMBIC, &iFlags);
}
// MARK: - handling data exception
void SerialComm::dataExceptionHandler(int aFd, int aPollFlags)
{
DBGLOG(LOG_DEBUG, "SerialComm::dataExceptionHandler(fd==%d, pollflags==0x%X)", aFd, aPollFlags);
bool reEstablish = false;
if (aPollFlags & POLLHUP) {
// other end has closed connection
LOG(LOG_ERR, "SerialComm: serial connection was hung up unexpectely");
reEstablish = true;
}
else if (aPollFlags & POLLIN) {
// Note: on linux a socket closed server side does not return POLLHUP, but POLLIN with no data
// alerted for read, but nothing to read any more: assume connection closed
LOG(LOG_ERR, "SerialComm: serial connection returns POLLIN with no data: assuming connection broken");
reEstablish = true;
}
else if (aPollFlags & POLLERR) {
// error
LOG(LOG_ERR, "SerialComm: error on serial connection: assuming connection broken");
reEstablish = true;
}
// in case of error, close and re-open connection
if (reEstablish && !mReconnecting) {
LOG(LOG_ERR, "SerialComm: closing and re-opening connection in attempt to re-establish it after error");
closeConnection();
// try re-opening right now
mReconnecting = true;
reconnectHandler();
}
}
void SerialComm::reconnectHandler()
{
if (mReconnecting) {
ErrorPtr err = establishConnection();
if (Error::notOK(err)) {
LOG(LOG_ERR, "SerialComm: re-connect failed: %s -> retry again later", err->text());
mReconnecting = true;
mReconnectTicket.executeOnce(boost::bind(&SerialComm::reconnectHandler, this), 15*Second);
}
else {
LOG(LOG_NOTICE, "SerialComm: successfully reconnected to %s", mConnectionPath.c_str());
}
}
}
#if ENABLE_SERIAL_SCRIPT_FUNCS
// MARK: - midi scripting
// received()
static void received_func(BuiltinFunctionContextPtr f)
{
EventSource* es = dynamic_cast<EventSource*>(f->thisObj().get());
assert(es);
f->finish(new OneShotEventNullValue(es, "serial data"));
}
// send(senddata)
FUNC_ARG_DEFS(send, { anyvalid });
static void send_func(BuiltinFunctionContextPtr f)
{
SerialCommObj* o = dynamic_cast<SerialCommObj*>(f->thisObj().get());
assert(o);
o->serialComm()->sendString(f->arg(0)->stringValue());
f->finish();
}
// rts(on)
// dtr(on)
FUNC_ARG_DEFS(boolarg, { numeric } );
static void rts_func(BuiltinFunctionContextPtr f)
{
SerialCommObj* o = dynamic_cast<SerialCommObj*>(f->thisObj().get());
assert(o);
o->serialComm()->setRTS(f->arg(0)->boolValue());
f->finish();
}
static void dtr_func(BuiltinFunctionContextPtr f)
{
SerialCommObj* o = dynamic_cast<SerialCommObj*>(f->thisObj().get());
assert(o);
o->serialComm()->setDTR(f->arg(0)->boolValue());
f->finish();
}
// sendbreak()
static void sendbreak_func(BuiltinFunctionContextPtr f)
{
SerialCommObj* o = dynamic_cast<SerialCommObj*>(f->thisObj().get());
assert(o);
o->serialComm()->sendBreak();
f->finish();
}
static const BuiltinMemberDescriptor serialCommMembers[] = {
FUNC_DEF_W_ARG(send, executable|null),
FUNC_DEF_NOARG(received, executable|null),
FUNC_DEF_C_ARG(dtr, executable|null, boolarg),
FUNC_DEF_C_ARG(rts, executable|null, boolarg),
FUNC_DEF_NOARG(sendbreak, executable|null),
{ NULL } // terminator
};
static BuiltInMemberLookup* sharedSerialCommFunctionLookupP = NULL;
SerialCommObj::SerialCommObj(SerialCommPtr aSerialComm, char aSeparator) :
mSerialComm(aSerialComm)
{
// install the input handler
mSerialComm->setReceiveHandler(boost::bind(&SerialCommObj::hasData, this, _1), aSeparator);
registerSharedLookup(sharedSerialCommFunctionLookupP, serialCommMembers);
}
void SerialCommObj::deactivate()
{
if (mSerialComm) {
mSerialComm->closeConnection();
mSerialComm.reset();
}
}
SerialCommObj::~SerialCommObj()
{
deactivate();
}
void SerialCommObj::hasData(ErrorPtr aStatus)
{
if (Error::isOK(aStatus)) {
// get the data
string data;
if (mSerialComm->mDelimiter) {
// receiving delimited chunks
if (mSerialComm->receiveDelimitedString(data)) {
sendEvent(new StringValue(data));
}
return;
}
else {
// no delimiter, report available data
aStatus = mSerialComm->receiveIntoString(data, 4096);
if (Error::isOK(aStatus)) {
sendEvent(new StringValue(data));
return;
}
}
}
// failed
sendEvent(new ErrorValue(aStatus));
}
// serial(serialconnectionspec)
// serial(serialconnectionspec, delimiter)
FUNC_ARG_DEFS(serial, { text }, { text|numeric|optionalarg } );
static void serial_func(BuiltinFunctionContextPtr f)
{
#if ENABLE_APPLICATION_SUPPORT
if (Application::sharedApplication()->userLevel()<1) { // user level >=1 is needed for IO access
f->finish(new ErrorValue(ScriptError::NoPrivilege, "no IO privileges"));
}
#endif
SerialCommPtr serialComm = new SerialComm;
serialComm->setConnectionSpecification(f->arg(0)->stringValue().c_str(), 2101, "none");
char delimiter = 0;
if (f->arg(1)->hasType(text)) delimiter = *(f->arg(1)->stringValue().c_str()); // one char or NUL
else if (f->arg(1)->boolValue()) delimiter = '\n'; // just true means LF (and removing CRs, too)
SerialCommObjPtr serialObj = new SerialCommObj(serialComm, delimiter);
ErrorPtr err = serialObj->serialComm()->establishConnection();
if (Error::isOK(err)) {
f->finish(serialObj);
}
else {
f->finish(new ErrorValue(err));
}
}
static const BuiltinMemberDescriptor serialGlobals[] = {
FUNC_DEF_W_ARG(serial, executable|null),
{ NULL } // terminator
};
SerialLookup::SerialLookup() :
inherited(serialGlobals)
{
}
#endif // ENABLE_SERIAL_SCRIPT_FUNCS