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mirror of https://github.com/DCC-EX/CommandStation-EX.git synced 2024-12-23 12:51:24 +01:00
CommandStation-EX/CommandDistributor.cpp
Asbelos c50f3e016c No functional change
Unused parameter removal & end of file tidying by the Arduino IDE
2024-10-27 13:53:34 +00:00

380 lines
13 KiB
C++

/*
* © 2022 Harald Barth
* © 2020-2021 Chris Harlow
* © 2020 Gregor Baues
* © 2022 Colin Murdoch
* All rights reserved.
*
* This file is part of CommandStation-EX
*
* This 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.
*
* It 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 CommandStation. If not, see <https://www.gnu.org/licenses/>.
*/
#include <Arduino.h>
#include "CommandDistributor.h"
#include "SerialManager.h"
#include "WiThrottle.h"
#include "DIAG.h"
#include "defines.h"
#include "DCCWaveform.h"
#include "DCC.h"
#include "TrackManager.h"
#include "StringFormatter.h"
// variables to hold clock time
int16_t lastclocktime;
int8_t lastclockrate;
#if WIFI_ON || ETHERNET_ON || defined(SERIAL1_COMMANDS) || defined(SERIAL2_COMMANDS) || defined(SERIAL3_COMMANDS) || defined(SERIAL4_COMMANDS) || defined(SERIAL5_COMMANDS) || defined(SERIAL6_COMMANDS)
// use a buffer to allow broadcast
StringBuffer * CommandDistributor::broadcastBufferWriter=new StringBuffer();
template<typename... Targs> void CommandDistributor::broadcastReply(clientType type, Targs... msg){
broadcastBufferWriter->flush();
StringFormatter::send(broadcastBufferWriter, msg...);
broadcastToClients(type);
}
#else
// on a single USB connection config, write direct to Serial and ignore flush/shove
template<typename... Targs> void CommandDistributor::broadcastReply(clientType type, Targs... msg){
(void)type; //shut up compiler warning
StringFormatter::send(&USB_SERIAL, msg...);
}
#endif
#ifdef CD_HANDLE_RING
// wifi or ethernet ring streams with multiple client types
RingStream * CommandDistributor::ring=0;
CommandDistributor::clientType CommandDistributor::clients[8]={
NONE_TYPE,NONE_TYPE,NONE_TYPE,NONE_TYPE,NONE_TYPE,NONE_TYPE,NONE_TYPE,NONE_TYPE};
// Parse is called by Withrottle or Ethernet interface to determine which
// protocol the client is using and call the appropriate part of dcc++Ex
void CommandDistributor::parse(byte clientId,byte * buffer, RingStream * stream) {
if (Diag::WIFI && Diag::CMD)
DIAG(F("Parse C=%d T=%d B=%s"),clientId, clients[clientId], buffer);
ring=stream;
// First check if the client is not known
// yet and in that case determinine type
// NOTE: First character of transmission determines if this
// client is using the DCC++ protocol where all commands start
// with '<'
if (clients[clientId] == NONE_TYPE) {
if (buffer[0] == '<')
clients[clientId]=COMMAND_TYPE;
else
clients[clientId]=WITHROTTLE_TYPE;
}
// mark buffer that is sent to parser
ring->mark(clientId);
// When type is known, send the string
// to the right parser
if (clients[clientId] == COMMAND_TYPE) {
DCCEXParser::parse(stream, buffer, ring);
} else if (clients[clientId] == WITHROTTLE_TYPE) {
WiThrottle::getThrottle(clientId)->parse(ring, buffer);
}
if (ring->peekTargetMark()!=RingStream::NO_CLIENT) {
// The commit call will either write the length bytes
// OR rollback to the mark because the reply is empty
// or the command generated more output than fits in
// the buffer
if (!ring->commit()) {
DIAG(F("OUTBOUND FULL processing cmd:%s"),buffer);
}
} else {
DIAG(F("CD parse: was alredy committed")); //XXX Could have been committed by broadcastClient?!
}
}
void CommandDistributor::forget(byte clientId) {
if (clients[clientId]==WITHROTTLE_TYPE) WiThrottle::forget(clientId);
clients[clientId]=NONE_TYPE;
if (virtualLCDClient==clientId) virtualLCDClient=RingStream::NO_CLIENT;
}
#endif
// This will not be called on a uno
void CommandDistributor::broadcastToClients(clientType type) {
byte rememberClient;
(void)rememberClient; // shut up compiler warning
// Broadcast to Serials
if (type==COMMAND_TYPE) SerialManager::broadcast(broadcastBufferWriter->getString());
#ifdef CD_HANDLE_RING
// If we are broadcasting from a wifi/eth process we need to complete its output
// before merging broadcasts in the ring, then reinstate it in case
// the process continues to output to its client.
if (ring) {
if ((rememberClient = ring->peekTargetMark()) != RingStream::NO_CLIENT) {
//DIAG(F("CD precommit client %d"), rememberClient);
ring->commit();
}
// loop through ring clients
for (byte clientId=0; clientId<sizeof(clients); clientId++) {
if (clients[clientId]==type) {
//DIAG(F("CD mark client %d"), clientId);
ring->mark(clientId);
ring->print(broadcastBufferWriter->getString());
//DIAG(F("CD commit client %d"), clientId);
ring->commit();
}
}
// at this point ring is committed (NO_CLIENT) either from
// 4 or 13 lines above.
if (rememberClient != RingStream::NO_CLIENT) {
//DIAG(F("CD postmark client %d"), rememberClient);
ring->mark(rememberClient);
}
}
#endif
}
// Public broadcast functions below
void CommandDistributor::broadcastSensor(int16_t id, bool on ) {
broadcastReply(COMMAND_TYPE, F("<%c %d>\n"), on?'Q':'q', id);
}
void CommandDistributor::broadcastTurnout(int16_t id, bool isClosed ) {
// For DCC++ classic compatibility, state reported to JMRI is 1 for thrown and 0 for closed;
// The string below contains serial and Withrottle protocols which should
// be safe for both types.
broadcastReply(COMMAND_TYPE, F("<H %d %d>\n"),id, !isClosed);
#ifdef CD_HANDLE_RING
broadcastReply(WITHROTTLE_TYPE, F("PTA%c%d\n"), isClosed?'2':'4', id);
#endif
}
void CommandDistributor::broadcastTurntable(int16_t id, uint8_t position, bool moving) {
broadcastReply(COMMAND_TYPE, F("<I %d %d %d>\n"), id, position, moving);
}
void CommandDistributor::broadcastClockTime(int16_t time, int8_t rate) {
// The JMRI clock command is of the form : PFT65871<;>4
// The CS broadcast is of the form "<jC mmmm nn" where mmmm is time minutes and dd speed
// The string below contains serial and Withrottle protocols which should
// be safe for both types.
broadcastReply(COMMAND_TYPE, F("<jC %d %d>\n"),time, rate);
#ifdef CD_HANDLE_RING
broadcastReply(WITHROTTLE_TYPE, F("PFT%l<;>%d\n"), (int32_t)time*60, rate);
#endif
}
void CommandDistributor::setClockTime(int16_t clocktime, int8_t clockrate, byte opt) {
// opt - case 1 save the latest time if changed
// case 2 broadcast the time when requested
// case 3 display latest time
switch (opt)
{
case 1:
if (clocktime != lastclocktime){
// CAH. DIAG removed because LCD does it anyway.
LCD(6,F("Clk Time:%d Sp %d"), clocktime, clockrate);
// look for an event for this time
RMFT2::clockEvent(clocktime,1);
// Now tell everyone else what the time is.
CommandDistributor::broadcastClockTime(clocktime, clockrate);
lastclocktime = clocktime;
lastclockrate = clockrate;
}
return;
case 2:
CommandDistributor::broadcastClockTime(lastclocktime, lastclockrate);
return;
}
}
int16_t CommandDistributor::retClockTime() {
return lastclocktime;
}
void CommandDistributor::broadcastLoco(byte slot) {
DCC::LOCO * sp=&DCC::speedTable[slot];
broadcastReply(COMMAND_TYPE, F("<l %d %d %d %l>\n"), sp->loco,slot,sp->speedCode,sp->functions);
#ifdef SABERTOOTH
if (Serial2 && sp->loco == SABERTOOTH) {
static uint8_t rampingmode = 0;
bool direction = (sp->speedCode & 0x80) !=0; // true for forward
int32_t speed = sp->speedCode & 0x7f;
if (speed == 1) { // emergency stop
if (rampingmode != 1) {
rampingmode = 1;
Serial2.print("R1: 0\r\n");
Serial2.print("R2: 0\r\n");
}
Serial2.print("MD: 0\r\n");
} else {
if (speed != 0) {
// speed is here 2 to 127
speed = (speed - 1) * 1625 / 100;
speed = speed * (direction ? 1 : -1);
// speed is here -2047 to 2047
}
if (rampingmode != 2) {
rampingmode = 2;
Serial2.print("R1: 2047\r\n");
Serial2.print("R2: 2047\r\n");
}
Serial2.print("M1: ");
Serial2.print(speed);
Serial2.print("\r\n");
Serial2.print("M2: ");
Serial2.print(speed);
Serial2.print("\r\n");
}
}
#endif
#ifdef CD_HANDLE_RING
WiThrottle::markForBroadcast(sp->loco);
#endif
}
void CommandDistributor::broadcastForgetLoco(int16_t loco) {
broadcastReply(COMMAND_TYPE, F("<l %d 0 1 0>\n<- %d>\n"), loco,loco);
}
void CommandDistributor::broadcastPower() {
char pstr[] = "? x";
for(byte t=0; t<TrackManager::MAX_TRACKS; t++)
if (TrackManager::getPower(t, pstr))
broadcastReply(COMMAND_TYPE, F("<p%s>\n"),pstr);
byte trackcount=0;
byte oncount=0;
byte offcount=0;
for(byte t=0; t<TrackManager::MAX_TRACKS; t++) {
if (TrackManager::isActive(t)) {
trackcount++;
// do not call getPower(t) unless isActive(t)!
if (TrackManager::getPower(t) == POWERMODE::ON)
oncount++;
else
offcount++;
}
}
//DIAG(F("t=%d on=%d off=%d"), trackcount, oncount, offcount);
char state='2';
if (oncount==0 || offcount == trackcount)
state = '0';
else if (oncount == trackcount) {
state = '1';
}
// additional info about MAIN, PROG and JOIN
bool main=TrackManager::getMainPower()==POWERMODE::ON;
bool prog=TrackManager::getProgPower()==POWERMODE::ON;
bool join=TrackManager::isJoined();
//DIAG(F("m=%d p=%d j=%d"), main, prog, join);
const FSH * reason=F("");
if (join) {
reason = F(" JOIN"); // with space at start so we can append without space
broadcastReply(COMMAND_TYPE, F("<p1 %S>\n"),reason);
} else {
if (main) {
//reason = F("MAIN");
broadcastReply(COMMAND_TYPE, F("<p1 MAIN>\n"));
}
if (prog) {
//reason = F("PROG");
broadcastReply(COMMAND_TYPE, F("<p1 PROG>\n"));
}
}
if (state != '2')
broadcastReply(COMMAND_TYPE, F("<p%c>\n"),state);
#ifdef CD_HANDLE_RING
// send '1' if all main are on, otherwise global state (which in that case is '0' or '2')
broadcastReply(WITHROTTLE_TYPE, F("PPA%c\n"), main?'1': state);
#endif
LCD(2,F("Power %S%S"),state=='1'?F("On"): ( state=='0'? F("Off") : F("SC") ),reason);
}
void CommandDistributor::broadcastRaw(clientType type, char * msg) {
broadcastReply(type, F("%s"),msg);
}
void CommandDistributor::broadcastMessage(char * message) {
broadcastReply(COMMAND_TYPE, F("<m \"%s\">\n"),message);
broadcastReply(WITHROTTLE_TYPE, F("Hm%s\n"),message);
}
void CommandDistributor::broadcastTrackState(const FSH* format, byte trackLetter, const FSH *modename, int16_t dcAddr) {
broadcastReply(COMMAND_TYPE, format, trackLetter, modename, dcAddr);
}
void CommandDistributor::broadcastRouteState(uint16_t routeId, byte state ) {
broadcastReply(COMMAND_TYPE, F("<jB %d %d>\n"),routeId,state);
}
void CommandDistributor::broadcastRouteCaption(uint16_t routeId, const FSH* caption ) {
broadcastReply(COMMAND_TYPE, F("<jB %d \"%S\">\n"),routeId,caption);
}
Print * CommandDistributor::getVirtualLCDSerial(byte screen, byte row) {
Print * stream=virtualLCDSerial;
#ifdef CD_HANDLE_RING
rememberVLCDClient=RingStream::NO_CLIENT;
if (!stream && virtualLCDClient!=RingStream::NO_CLIENT) {
// If we are broadcasting from a wifi/eth process we need to complete its output
// before merging broadcasts in the ring, then reinstate it in case
// the process continues to output to its client.
if ((rememberVLCDClient = ring->peekTargetMark()) != RingStream::NO_CLIENT) {
ring->commit();
}
ring->mark(virtualLCDClient);
stream=ring;
}
#endif
if (stream) StringFormatter::send(stream,F("<@ %d %d \""), screen,row);
return stream;
}
void CommandDistributor::commitVirtualLCDSerial() {
#ifdef CD_HANDLE_RING
if (virtualLCDClient!=RingStream::NO_CLIENT) {
StringFormatter::send(ring,F("\">\n"));
ring->commit();
if (rememberVLCDClient!=RingStream::NO_CLIENT) ring->mark(rememberVLCDClient);
return;
}
#endif
StringFormatter::send(virtualLCDSerial,F("\">\n"));
}
void CommandDistributor::setVirtualLCDSerial(Print * stream) {
#ifdef CD_HANDLE_RING
virtualLCDClient=RingStream::NO_CLIENT;
if (stream && stream->availableForWrite()==RingStream::THIS_IS_A_RINGSTREAM) {
virtualLCDClient=((RingStream *) stream)->peekTargetMark();
virtualLCDSerial=nullptr;
return;
}
#endif
virtualLCDSerial=stream;
}
Print* CommandDistributor::virtualLCDSerial=&USB_SERIAL;
byte CommandDistributor::virtualLCDClient=0xFF;
byte CommandDistributor::rememberVLCDClient=0;