Tasmota/tasmota/xdrv_53_projector_ctrl.ino

480 lines
15 KiB
C++

/*
xdrv_53_projector_ctrl.ino - LCD/DLP Projector Serial Control support for Tasmota
Copyright (C) 2021 Jan Bubík <jbubik@centrum.cz>
Written with the gifts I got from Jesus.
This program 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.
This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifdef USE_PROJECTOR_CTRL
/*********************************************************************************************\
* LCD/DLP Projector Control via serial interface
* https://www.sharpnecdisplays.eu/p/download/v/5e14a015e26cacae3ae64a422f7f8af4/cp/Products/Projectors/Shared/CommandLists/PDF-ExternalControlManual-english.pdf#page=5
* https://www.optoma.co.uk/uploads/manuals/hd36-m-en-gb.pdf#page=56
* http://global-download.acer.com/GDFiles/Document/RS232%20Command%20Table/RS232%20Command%20Table_Acer_1.0_A_A.zip?acerid=636791605984811687
\*********************************************************************************************/
#define XDRV_53 53
#if !defined(USE_PROJECTOR_CTRL_NEC) && !defined(USE_PROJECTOR_CTRL_OPTOMA) && !defined(USE_PROJECTOR_CTRL_ACER)
#define USE_PROJECTOR_CTRL_NEC // Use at least one projector
#endif
#define nitems(_a) (sizeof((_a)) / sizeof((_a)[0]))
#define xxstr(s) xstr(s)
#define xstr(s) #s
enum projector_ctrl_dev_state_e : uint8_t {
PROJECTOR_CTRL_DEV_UNKNOWN=0,
PROJECTOR_CTRL_DEV_PWR_OFF,
PROJECTOR_CTRL_DEV_PWR_ON
};
enum projector_ctrl_serial_state_e : uint8_t {
PROJECTOR_CTRL_S_UNCONNECTED=0,
PROJECTOR_CTRL_S_QRY_PWR,
PROJECTOR_CTRL_S_QRY_TYPE,
PROJECTOR_CTRL_S_IDLE,
PROJECTOR_CTRL_S_PWR_ON,
PROJECTOR_CTRL_S_PWR_OFF
};
enum projector_ctrl_serial_result_e : uint8_t {
PROJECTOR_CTRL_R_UNKNOWN=0,
PROJECTOR_CTRL_R_PASS,
PROJECTOR_CTRL_R_FAIL
};
struct projector_ctrl_command_info_s {
const enum projector_ctrl_serial_state_e command;
const uint8_t *send_codes;
const uint8_t send_len;
const uint8_t timeout_ticks;
const uint8_t pass_first_byte;
const uint8_t pass_len;
const uint8_t pass_value_offset;
const uint8_t pass_value_bytes;
const uint8_t fail_first_byte;
const uint8_t fail_len;
const uint8_t fail_value_offset;
const uint8_t fail_value_bytes;
} __packed;
#include "xdrv_53_projector_ctrl.h"
struct projector_ctrl_softc_s {
TasmotaSerial *sc_serial;
uint8_t sc_device;
uint8_t sc_ticks;
enum projector_ctrl_dev_state_e sc_dev_state;
enum projector_ctrl_serial_state_e sc_ser_state;
enum projector_ctrl_serial_result_e sc_ser_result;
enum projector_ctrl_serial_state_e sc_ser_next_cmd;
const struct projector_ctrl_command_info_s *sc_cmd_info;
uint8_t sc_ser_sum;
uint8_t sc_ser_len;
uint32_t sc_ser_value;
} __packed;
static struct projector_ctrl_softc_s *projector_ctrl_sc = nullptr;
static void
projector_ctrl_pre_init(void)
{
struct projector_ctrl_softc_s *sc;
int baudrate = PROJECTOR_CTRL_SERIAL_BAUDRATE;
if (!PinUsed(GPIO_PROJECTOR_CTRL_TX) || !PinUsed(GPIO_PROJECTOR_CTRL_RX))
return;
sc = (struct projector_ctrl_softc_s *)malloc(sizeof(*sc));
if (sc == NULL) {
AddLog_P(LOG_LEVEL_ERROR, PSTR(PROJECTOR_CTRL_LOGNAME ": unable to allocate state"));
return;
}
memset(sc, 0, sizeof(*sc));
sc->sc_serial = new TasmotaSerial(Pin(GPIO_PROJECTOR_CTRL_RX),
Pin(GPIO_PROJECTOR_CTRL_TX), 2);
if (!sc->sc_serial->begin(baudrate, 2)) {
AddLog_P(LOG_LEVEL_ERROR, PSTR(PROJECTOR_CTRL_LOGNAME ": unable to begin serial "
"(baudrate %d)"), baudrate);
goto del;
}
if (sc->sc_serial->hardwareSerial()) {
ClaimSerial();
SetSerial(baudrate, TS_SERIAL_8N1);
}
sc->sc_device = ++(TasmotaGlobal.devices_present); /* claim a POWER device slot */
AddLog_P(LOG_LEVEL_INFO, PSTR(PROJECTOR_CTRL_LOGNAME ": new RELAY%d, polling serial for Projector status"), sc->sc_device);
projector_ctrl_sc = sc;
return;
del:
delete sc->sc_serial;
free:
free(sc);
}
static void
projector_ctrl_write(struct projector_ctrl_softc_s *sc, const uint8_t *bytes, const size_t len)
{
TasmotaSerial *serial;
uint8_t cksum;
size_t i;
cksum = 0;
serial = sc->sc_serial;
for (i = 0; i < len; i++) {
uint8_t b = bytes[i];
serial->write(b);
cksum += b;
}
#ifdef USE_PROJECTOR_CTRL_NEC
serial->write(cksum);
#ifdef DEBUG_PROJECTOR_CTRL
char hex_b[(len + 1) * 2];
AddLog_P(LOG_LEVEL_DEBUG,PSTR(PROJECTOR_CTRL_LOGNAME ": RAW bytes %s %02x"),
ToHex_P((uint8_t *)bytes, len, hex_b, sizeof(hex_b)), cksum);
#endif //DEBUG_PROJECTOR_CTRL
#else //!USE_PROJECTOR_CTRL_NEC
#ifdef DEBUG_PROJECTOR_CTRL
char hex_b[(len + 1) * 2];
AddLog_P(LOG_LEVEL_DEBUG,PSTR(PROJECTOR_CTRL_LOGNAME ": RAW bytes %s"),
ToHex_P((uint8_t *)bytes, len, hex_b, sizeof(hex_b)));
#endif //DEBUG_PROJECTOR_CTRL
#endif //!USE_PROJECTOR_CTRL_NEC
serial->flush();
return;
}
static void
projector_ctrl_request(struct projector_ctrl_softc_s *sc, const uint8_t command)
{
const struct projector_ctrl_command_info_s *e;
size_t i;
if ((sc->sc_dev_state!=PROJECTOR_CTRL_DEV_UNKNOWN)&&(sc->sc_ser_state!=PROJECTOR_CTRL_S_IDLE)) {
if ((command!=PROJECTOR_CTRL_S_QRY_PWR)&&(command!=PROJECTOR_CTRL_S_QRY_TYPE)) {
sc->sc_ser_next_cmd=(projector_ctrl_serial_state_e)command;
AddLog_P(LOG_LEVEL_INFO, PSTR(PROJECTOR_CTRL_LOGNAME
": Serial CMD %02x already running, enqueueing next (%02x)"), sc->sc_ser_state, command);
};
return;
};
for (i = 0; i < nitems(projector_ctrl_commands); i++) {
e = &projector_ctrl_commands[i];
if (command == e->command){
sc->sc_cmd_info=e;
sc->sc_ser_len=0;
sc->sc_ser_result=PROJECTOR_CTRL_R_UNKNOWN;
sc->sc_ser_state=(projector_ctrl_serial_state_e)command;
sc->sc_ser_sum=0;
sc->sc_ser_next_cmd=PROJECTOR_CTRL_S_UNCONNECTED;
sc->sc_ticks=0;
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": Sending CMD %02x"), command);
#endif //DEBUG_PROJECTOR_CTRL
projector_ctrl_write(sc,e->send_codes,e->send_len);
return;
}
};
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": Undefined serial command %02x"), command);
#endif //DEBUG_PROJECTOR_CTRL
return;
}
static uint8_t
projector_ctrl_parse(struct projector_ctrl_softc_s *sc, const uint8_t byte)
{
enum projector_ctrl_serial_state_e nstate;
const struct projector_ctrl_command_info_s *cmd;
nstate = sc->sc_ser_state;
switch (nstate) {
case PROJECTOR_CTRL_S_IDLE:
case PROJECTOR_CTRL_S_UNCONNECTED:
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": Spurious input in state %02x, got %02x, going UNCONNECTED"), nstate, byte);
#endif //DEBUG_PROJECTOR_CTRL
return(PROJECTOR_CTRL_S_UNCONNECTED);
default:
cmd=sc->sc_cmd_info;
sc->sc_ser_len++;
if (sc->sc_ser_len==1) {
if (byte==cmd->pass_first_byte){
sc->sc_ser_result=PROJECTOR_CTRL_R_PASS;
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": CMD %02x PASS, 1st byte %02x"), nstate, byte);
#endif //DEBUG_PROJECTOR_CTRL
}else if (byte==cmd->fail_first_byte){
sc->sc_ser_result=PROJECTOR_CTRL_R_FAIL;
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": CMD %02x FAIL, 1st byte %02x"), nstate, byte);
#endif //DEBUG_PROJECTOR_CTRL
}else{
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": CMD %02x UNKNOWN, 1st byte %02x, going UNCONNECTED"), nstate, byte);
#endif //DEBUG_PROJECTOR_CTRL
return(PROJECTOR_CTRL_S_UNCONNECTED);
};
};
if (sc->sc_ser_result==PROJECTOR_CTRL_R_PASS){
if (sc->sc_ser_len==(cmd->pass_value_offset+1))
sc->sc_ser_value=byte;
if ((sc->sc_ser_len>(cmd->pass_value_offset+1))&&(sc->sc_ser_len<=(cmd->pass_value_offset+cmd->pass_value_bytes)))
sc->sc_ser_value=(sc->sc_ser_value<<8)|byte;
if (sc->sc_ser_len==cmd->pass_len){
#ifdef USE_PROJECTOR_CTRL_NEC
if(sc->sc_ser_sum!=byte){
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": Failed cksum for CMD %02x. Got %02x bytes, computed cksum: %02x, recevied cksum: %02x, going UNCONNECTED"),
nstate, sc->sc_ser_len, sc->sc_ser_sum, byte);
#endif //DEBUG_PROJECTOR_CTRL
nstate=PROJECTOR_CTRL_S_UNCONNECTED;
} else
#endif //USE_PROJECTOR_CTRL_NEC
{
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": CMD %02x PASS, got %02x bytes, retval %02x, going IDLE"), nstate, sc->sc_ser_len, sc->sc_ser_value);
#endif //DEBUG_PROJECTOR_CTRL
nstate=PROJECTOR_CTRL_S_IDLE;
};
};
};
if (sc->sc_ser_result==PROJECTOR_CTRL_R_FAIL) {
if (sc->sc_ser_len==(cmd->fail_value_offset+1))
sc->sc_ser_value=byte;
if ((sc->sc_ser_len>(cmd->fail_value_offset+1))&&(sc->sc_ser_len<=(cmd->fail_value_offset+cmd->fail_value_bytes)))
sc->sc_ser_value=(sc->sc_ser_value<<8)|byte;
if(sc->sc_ser_len==cmd->fail_len){
#ifdef USE_PROJECTOR_CTRL_NEC
if(sc->sc_ser_sum!=byte){
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": Failed cksum for CMD %02x. Got %02x bytes, computed cksum: %02x, receied cksum: %02x, going UNCONNECTED"),
nstate, sc->sc_ser_len, sc->sc_ser_sum, byte);
#endif //DEBUG_PROJECTOR_CTRL
nstate=PROJECTOR_CTRL_S_UNCONNECTED;
} else
#endif //USE_PROJECTOR_CTRL_NEC
{
#ifdef DEBUG_PROJECTOR_CTRL
AddLog_P(LOG_LEVEL_DEBUG, PSTR(PROJECTOR_CTRL_LOGNAME
": CMD %02x FAIL, got %02x bytes, retval %02x, going idle"), nstate, sc->sc_ser_len, sc->sc_ser_value);
#endif //DEBUG_PROJECTOR_CTRL
nstate=PROJECTOR_CTRL_S_IDLE;
};
};
};
#ifdef USE_PROJECTOR_CTRL_NEC
sc->sc_ser_sum += byte;
#endif //USE_PROJECTOR_CTRL_NEC
break;
}
return (nstate);
}
static void
projector_ctrl_loop(struct projector_ctrl_softc_s *sc)
{
TasmotaSerial *serial;
uint8_t oldstate;
serial = sc->sc_serial;
while (serial->available()) {
yield();
oldstate = sc->sc_ser_state;
switch (sc->sc_ser_state = (projector_ctrl_serial_state_e)projector_ctrl_parse(sc, serial->read())) {
case PROJECTOR_CTRL_S_UNCONNECTED:
if (sc->sc_dev_state!=PROJECTOR_CTRL_DEV_UNKNOWN){
sc->sc_dev_state=PROJECTOR_CTRL_DEV_UNKNOWN;
AddLog_P(LOG_LEVEL_INFO,PSTR(PROJECTOR_CTRL_LOGNAME ": DISCONNECTED(unexpected input)"));
}
break;
case PROJECTOR_CTRL_S_IDLE:
if ((oldstate==PROJECTOR_CTRL_S_QRY_PWR)&&(sc->sc_ser_result==PROJECTOR_CTRL_R_PASS)){
if(sc->sc_dev_state==PROJECTOR_CTRL_DEV_UNKNOWN){
AddLog_P(LOG_LEVEL_INFO,PSTR(PROJECTOR_CTRL_LOGNAME ": CONNECTED"));
};
if(( (sc->sc_ser_value==PROJECTOR_CTRL_QRYPWR_ON)
||(sc->sc_ser_value==PROJECTOR_CTRL_QRYPWR_COOLING)
||(sc->sc_ser_value==PROJECTOR_CTRL_QRYPWR_STARTING)
||(sc->sc_ser_value==PROJECTOR_CTRL_QRYPWR_WARMING)
)&&(sc->sc_dev_state!=PROJECTOR_CTRL_DEV_PWR_ON)){
sc->sc_dev_state=PROJECTOR_CTRL_DEV_PWR_ON;
ExecuteCommandPower(sc->sc_device, POWER_ON, SRC_IGNORE);
};
if(( (sc->sc_ser_value!=PROJECTOR_CTRL_QRYPWR_ON)
&&(sc->sc_ser_value!=PROJECTOR_CTRL_QRYPWR_COOLING)
&&(sc->sc_ser_value!=PROJECTOR_CTRL_QRYPWR_STARTING)
&&(sc->sc_ser_value!=PROJECTOR_CTRL_QRYPWR_WARMING)
)&&(sc->sc_dev_state!=PROJECTOR_CTRL_DEV_PWR_OFF)){
sc->sc_dev_state=PROJECTOR_CTRL_DEV_PWR_OFF;
ExecuteCommandPower(sc->sc_device, POWER_OFF, SRC_IGNORE);
};
};
if ((oldstate==PROJECTOR_CTRL_S_PWR_ON)&&(sc->sc_ser_result==PROJECTOR_CTRL_R_PASS))
sc->sc_dev_state=PROJECTOR_CTRL_DEV_PWR_ON;
if ((oldstate==PROJECTOR_CTRL_S_PWR_OFF)&&(sc->sc_ser_result==PROJECTOR_CTRL_R_PASS))
sc->sc_dev_state=PROJECTOR_CTRL_DEV_PWR_OFF;
if(sc->sc_ser_next_cmd!=PROJECTOR_CTRL_S_UNCONNECTED){
oldstate=sc->sc_ser_next_cmd;
sc->sc_ser_next_cmd=PROJECTOR_CTRL_S_UNCONNECTED;
projector_ctrl_request(sc,oldstate);
};
break;
};
}
}
static void
projector_ctrl_connect(struct projector_ctrl_softc_s *sc)
{
projector_ctrl_request(sc,PROJECTOR_CTRL_S_QRY_PWR);
}
static void
projector_ctrl_tick(struct projector_ctrl_softc_s *sc)
{
if(sc->sc_ser_state==PROJECTOR_CTRL_S_IDLE){
switch (TasmotaGlobal.uptime&0xf) {
case 0:
projector_ctrl_request(sc,PROJECTOR_CTRL_S_QRY_PWR);
break;
case 8:
projector_ctrl_request(sc,PROJECTOR_CTRL_S_QRY_TYPE);
break;
};
}else if(sc->sc_ticks > sc->sc_cmd_info->timeout_ticks){
//current CMD has ran out of time, drop connection
AddLog_P(LOG_LEVEL_INFO,PSTR(PROJECTOR_CTRL_LOGNAME ": DISCONNECTED(timeout)"));
sc->sc_dev_state=PROJECTOR_CTRL_DEV_UNKNOWN;
sc->sc_ser_state=PROJECTOR_CTRL_S_UNCONNECTED;
};
}
static bool
projector_ctrl_set_power(struct projector_ctrl_softc_s *sc)
{
if (TasmotaGlobal.active_device==PROJECTOR_CTRL_PWR_BY_RELAY){
if ((sc->sc_dev_state == PROJECTOR_CTRL_DEV_PWR_ON) && (0==bitRead(XdrvMailbox.index, PROJECTOR_CTRL_PWR_BY_RELAY -1))) {
TasmotaGlobal.power = bitSet(TasmotaGlobal.power,PROJECTOR_CTRL_PWR_BY_RELAY -1);
AddLog_P(LOG_LEVEL_INFO,PSTR(PROJECTOR_CTRL_LOGNAME ": Keep RELAY" xxstr(PROJECTOR_CTRL_PWR_BY_RELAY) " ON"));
} else {
return(false);
};
} else if (TasmotaGlobal.active_device==sc->sc_device){
if (bitRead(XdrvMailbox.index, sc->sc_device -1)) {
switch (sc->sc_dev_state) {
case PROJECTOR_CTRL_DEV_UNKNOWN:
TasmotaGlobal.power = bitClear(TasmotaGlobal.power,sc->sc_device -1);
break;
case PROJECTOR_CTRL_DEV_PWR_OFF:
projector_ctrl_request(sc,PROJECTOR_CTRL_S_PWR_ON);
break;
};
}else{
if (sc->sc_dev_state == PROJECTOR_CTRL_DEV_PWR_ON)
projector_ctrl_request(sc,PROJECTOR_CTRL_S_PWR_OFF);
};
} else {
return(false);
};
return (true);
}
/*********************************************************************************************\
* Interface
\*********************************************************************************************/
bool Xdrv53(uint8_t function) {
bool result;
struct projector_ctrl_softc_s *sc;
result = false;
sc = projector_ctrl_sc;
switch (function) {
case FUNC_PRE_INIT:
projector_ctrl_pre_init();
return (false);
}
if (sc == NULL)
return (false);
switch (function) {
case FUNC_LOOP:
projector_ctrl_loop(sc);
break;
case FUNC_EVERY_SECOND:
sc->sc_ticks++;
if (sc->sc_dev_state!=PROJECTOR_CTRL_DEV_UNKNOWN)
projector_ctrl_tick(sc);
else if ((TasmotaGlobal.uptime&0x7)==0) //each 8 seconds
projector_ctrl_connect(sc);
break;
case FUNC_SET_DEVICE_POWER:
result = projector_ctrl_set_power(sc);
break;
}
return (result);
}
#endif // USE_PROJECTOR_CTRL