Tasmota/tasmota/xdrv_44_miel_hvac.ino

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/*
xdrv_44_miel_hvac.ino - Mitsubishi Electric HVAC support for Tasmota
2021-01-01 12:44:04 +00:00
Copyright (C) 2021 David Gwynne <david@gwynne.id.au>
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_MIEL_HVAC
/*********************************************************************************************\
* Mitsubishi Electric HVAC serial interface
\*********************************************************************************************/
#define XDRV_44 44
#define nitems(_a) (sizeof((_a)) / sizeof((_a)[0]))
#define CTASSERT(x) extern char _ctassert[(x) ? 1 : -1 ] \
__attribute__((__unused__))
#define MIEL_HVAC_LOGNAME "MiElHVAC"
#define D_CMND_MIEL_HVAC_SETFANSPEED "HVACSetFanSpeed"
#define D_CMND_MIEL_HVAC_SETMODE "HVACSetMode"
#define D_CMND_MIEL_HVAC_SETHAMODE "HVACSetHAMode"
#define D_CMND_MIEL_HVAC_SETTEMP "HVACSetTemp"
#define D_CMND_MIEL_HVAC_SETSWINGV "HVACSetSwingV"
#define D_CMND_MIEL_HVAC_SETSWINGH "HVACSetSwingH"
#define D_CMND_MIEL_HVAC_REMOTETEMP "HVACRemoteTemp"
#include <TasmotaSerial.h>
/* from hvac */
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bool temp_type = false;
struct miel_hvac_header {
uint8_t start;
#define MIEL_HVAC_H_START 0xfc
uint8_t type;
#define MIEL_HVAC_H_TYPE_UPDATED 0x61
#define MIEL_HVAC_H_TYPE_DATA 0x62
#define MIEL_HVAC_H_TYPE_CONNECTED 0x7a
uint8_t middle1;
#define MIEL_HVAC_H_MIDDLE1 0x01
uint8_t middle2;
#define MIEL_HVAC_H_MIDDLE2 0x30
uint8_t len;
};
struct miel_hvac_data_settings {
uint8_t _pad1[2];
uint8_t power;
uint8_t mode;
#define MIEL_HVAC_SETTINGS_MODE_MASK 0x7f
uint8_t temp;
uint8_t fan;
uint8_t vane;
uint8_t _pad2[2];
uint8_t widevane;
#define MIEL_HVAC_SETTTINGS_WIDEVANE_MASK \
0x0f
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uint8_t temp05;
};
struct miel_hvac_data_roomtemp {
uint8_t _pad1[2];
uint8_t temp;
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uint8_t _pad2[2];
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uint8_t temp05;
};
struct miel_hvac_data_status {
uint8_t _pad1[2];
uint8_t compressor;
uint8_t operation;
};
struct miel_hvac_data {
uint8_t type;
#define MIEL_HVAC_DATA_T_SETTINGS 0x02
#define MIEL_HVAC_DATA_T_ROOMTEMP 0x03
#define MIEL_HVAC_DATA_T_TIMER 0x05
#define MIEL_HVAC_DATA_T_STATUS 0x06
#define MIEL_HVAC_DATA_T_STAGE 0x09
union {
struct miel_hvac_data_settings
settings;
struct miel_hvac_data_roomtemp
roomtemp;
struct miel_hvac_data_status
status;
uint8_t bytes[15];
} data;
};
CTASSERT(sizeof(struct miel_hvac_data) == 16);
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CTASSERT(offsetof(struct miel_hvac_data, data.settings.power) == 3);
CTASSERT(offsetof(struct miel_hvac_data, data.settings.mode) == 4);
CTASSERT(offsetof(struct miel_hvac_data, data.settings.temp) == 5);
CTASSERT(offsetof(struct miel_hvac_data, data.settings.fan) == 6);
CTASSERT(offsetof(struct miel_hvac_data, data.settings.vane) == 7);
CTASSERT(offsetof(struct miel_hvac_data, data.settings.widevane) == 10);
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CTASSERT(offsetof(struct miel_hvac_data, data.settings.temp05) == 11);
CTASSERT(offsetof(struct miel_hvac_data, data.roomtemp.temp) == 3);
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CTASSERT(offsetof(struct miel_hvac_data, data.roomtemp.temp05) == 6);
/* to hvac */
#define MIEL_HVAC_H_TYPE_CONNECT 0x5a
static const uint8_t miel_hvac_msg_connect[] = { 0xca, 0x01 };
#define MIEL_HVAC_H_TYPE_REQUEST 0x42
struct miel_hvac_msg_request {
uint8_t type;
#define MIEL_HVAC_REQUEST_SETTINGS 0x02
#define MIEL_HVAC_REQUEST_ROOMTEMP 0x03
#define MIEL_HVAC_REQUEST_TIMERS 0x05
#define MIEL_HVAC_REQUEST_STATUS 0x06
#define MIEL_HVAC_REQUEST_STAGE 0x09
uint8_t zero[15];
};
#define MIEL_HVAC_H_TYPE_UPDATE 0x41
struct miel_hvac_msg_update {
uint8_t one;
uint16_t flags;
#define MIEL_HVAC_UPDATE_F_WIDEVANE (1 << 0)
#define MIEL_HVAC_UPDATE_F_POWER (1 << 8)
#define MIEL_HVAC_UPDATE_F_MODE (1 << 9)
#define MIEL_HVAC_UPDATE_F_TEMP (1 << 10)
#define MIEL_HVAC_UPDATE_F_FAN (1 << 11)
#define MIEL_HVAC_UPDATE_F_VANE (1 << 12)
uint8_t power;
#define MIEL_HVAC_UPDATE_POWER_OFF 0x00
#define MIEL_HVAC_UPDATE_POWER_ON 0x01
uint8_t mode;
#define MIEL_HVAC_UPDATE_MODE_HEAT 0x01
#define MIEL_HVAC_UPDATE_MODE_DRY 0x02
#define MIEL_HVAC_UPDATE_MODE_COOL 0x03
#define MIEL_HVAC_UPDATE_MODE_FAN 0x07
#define MIEL_HVAC_UPDATE_MODE_AUTO 0x08
uint8_t temp;
#define MIEL_HVAC_UPDATE_TEMP_MIN 16
#define MIEL_HVAC_UPDATE_TEMP_MAX 31
uint8_t fan;
#define MIEL_HVAC_UPDATE_FAN_AUTO 0x00
#define MIEL_HVAC_UPDATE_FAN_QUIET 0x01
#define MIEL_HVAC_UPDATE_FAN_1 0x02
#define MIEL_HVAC_UPDATE_FAN_2 0x03
#define MIEL_HVAC_UPDATE_FAN_3 0x05
#define MIEL_HVAC_UPDATE_FAN_4 0x06
uint8_t vane;
#define MIEL_HVAC_UPDATE_VANE_AUTO 0x00
#define MIEL_HVAC_UPDATE_VANE_1 0x01
#define MIEL_HVAC_UPDATE_VANE_2 0x02
#define MIEL_HVAC_UPDATE_VANE_3 0x03
#define MIEL_HVAC_UPDATE_VANE_4 0x04
#define MIEL_HVAC_UPDATE_VANE_5 0x05
#define MIEL_HVAC_UPDATE_VANE_SWING 0x07
uint8_t _pad1[5];
uint8_t widevane;
#define MIEL_HVAC_UPDATE_WIDEVANE_MASK 0x0f
#define MIEL_HVAC_UPDATE_WIDEVANE_LL 0x01
#define MIEL_HVAC_UPDATE_WIDEVANE_L 0x02
#define MIEL_HVAC_UPDATE_WIDEVANE_LL 0x01
#define MIEL_HVAC_UPDATE_WIDEVANE_L 0x02
#define MIEL_HVAC_UPDATE_WIDEVANE_C 0x03
#define MIEL_HVAC_UPDATE_WIDEVANE_R 0x04
#define MIEL_HVAC_UPDATE_WIDEVANE_RR 0x05
#define MIEL_HVAC_UPDATE_WIDEVANE_LR 0x08
#define MIEL_HVAC_UPDATE_WIDEVANE_SWING 0x0c
#define MIEL_HVAC_UPDATE_WIDEVANE_ADJ 0x80
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uint8_t temp05;
uint8_t _pad2[1];
} __packed;
CTASSERT(sizeof(struct miel_hvac_msg_update) == 16);
#define MIEL_HVAC_OFFS(_v) ((_v) - sizeof(struct miel_hvac_header))
CTASSERT(offsetof(struct miel_hvac_msg_update, flags) == MIEL_HVAC_OFFS(6));
CTASSERT(offsetof(struct miel_hvac_msg_update, power) == MIEL_HVAC_OFFS(8));
CTASSERT(offsetof(struct miel_hvac_msg_update, mode) == MIEL_HVAC_OFFS(9));
CTASSERT(offsetof(struct miel_hvac_msg_update, temp) == MIEL_HVAC_OFFS(10));
CTASSERT(offsetof(struct miel_hvac_msg_update, fan) == MIEL_HVAC_OFFS(11));
CTASSERT(offsetof(struct miel_hvac_msg_update, vane) == MIEL_HVAC_OFFS(12));
CTASSERT(offsetof(struct miel_hvac_msg_update, widevane) == MIEL_HVAC_OFFS(18));
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CTASSERT(offsetof(struct miel_hvac_msg_update, temp05) == MIEL_HVAC_OFFS(19));
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static inline uint8_t
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miel_hvac_deg2temp(float deg)
{
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if (!temp_type) {
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return (31 - deg);
}
else {
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deg = 2*deg + 128;
return ((uint8_t) deg);
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}
}
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static inline float
miel_hvac_temp2deg(uint8_t temp)
{
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if (!temp_type) {
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return (31 - temp);
}
else {
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temp -= 128;
return ((float) temp/2);
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}
}
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static inline float
miel_hvac_roomtemp2deg(uint8_t roomtemp)
{
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if (!temp_type) {
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return ((unsigned int)roomtemp + 10);
}
else {
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roomtemp -= 128;
return ((float) roomtemp/2);
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}
}
struct miel_hvac_msg_remotetemp {
uint8_t seven;
uint8_t control;
#define MIEL_HVAC_REMOTETEMP_CLR 0x00
#define MIEL_HVAC_REMOTETEMP_SET 0x01
/* setting for older units expressed as .5C units starting at 8C */
uint8_t temp_old;
#define MIEL_HVAC_REMOTETEMP_OLD_MIN 8
#define MIEL_HVAC_REMOTETEMP_OLD_MAX 38
#define MIEL_HVAC_REMOTETEMP_OLD_FACTOR 2
/* setting for newer units expressed as .5C units starting at -63C */
uint8_t temp;
#define MIEL_HVAC_REMOTETEMP_MIN -63
#define MIEL_HVAC_REMOTETEMP_MAX 63
#define MIEL_HVAC_REMOTETEMP_OFFSET 64
#define MIEL_HVAC_REMOTETEMP_FACTOR 2
uint8_t _pad2[12];
};
CTASSERT(sizeof(struct miel_hvac_msg_remotetemp) == 16);
static inline uint8_t
miel_hvac_cksum_fini(uint8_t sum)
{
return (0xfc - sum);
}
struct miel_hvac_map {
uint8_t byte;
const char *name;
};
static const struct miel_hvac_map miel_hvac_mode_map[] = {
{ MIEL_HVAC_UPDATE_MODE_HEAT, "heat" },
{ MIEL_HVAC_UPDATE_MODE_DRY, "dry" },
{ MIEL_HVAC_UPDATE_MODE_COOL, "cool" },
{ MIEL_HVAC_UPDATE_MODE_FAN, "fan_only" },
{ MIEL_HVAC_UPDATE_MODE_AUTO, "auto" },
};
static const struct miel_hvac_map miel_hvac_fan_map[] = {
{ MIEL_HVAC_UPDATE_FAN_AUTO, "auto" },
{ MIEL_HVAC_UPDATE_FAN_QUIET, "quiet" },
{ MIEL_HVAC_UPDATE_FAN_1, "1" },
{ MIEL_HVAC_UPDATE_FAN_2, "2" },
{ MIEL_HVAC_UPDATE_FAN_3, "3" },
{ MIEL_HVAC_UPDATE_FAN_4, "4" },
};
static const struct miel_hvac_map miel_hvac_vane_map[] = {
{ MIEL_HVAC_UPDATE_VANE_AUTO, "auto" },
{ MIEL_HVAC_UPDATE_VANE_1, "1" },
{ MIEL_HVAC_UPDATE_VANE_2, "2" },
{ MIEL_HVAC_UPDATE_VANE_3, "3" },
{ MIEL_HVAC_UPDATE_VANE_4, "4" },
{ MIEL_HVAC_UPDATE_VANE_5, "5" },
{ MIEL_HVAC_UPDATE_VANE_SWING, "swing" },
};
static const struct miel_hvac_map miel_hvac_widevane_map[] = {
{ MIEL_HVAC_UPDATE_WIDEVANE_LL, "LL" },
{ MIEL_HVAC_UPDATE_WIDEVANE_L, "L" },
{ MIEL_HVAC_UPDATE_WIDEVANE_C, "C" },
{ MIEL_HVAC_UPDATE_WIDEVANE_R, "R" },
{ MIEL_HVAC_UPDATE_WIDEVANE_RR, "RR" },
{ MIEL_HVAC_UPDATE_WIDEVANE_LR, "split" },
{ MIEL_HVAC_UPDATE_WIDEVANE_SWING, "swing" },
};
enum miel_hvac_parser_state {
MIEL_HVAC_P_START,
MIEL_HVAC_P_TYPE,
MIEL_HVAC_P_MIDDLE1,
MIEL_HVAC_P_MIDDLE2,
MIEL_HVAC_P_LEN,
MIEL_HVAC_P_DATA,
MIEL_HVAC_P_CKSUM,
MIEL_HVAC_P_SKIP,
MIEL_HVAC_P_SKIP_CKSUM,
};
#define MIEL_HVAC_DATABUFLEN 64
struct miel_hvac_parser {
enum miel_hvac_parser_state
p_state;
uint8_t p_type;
uint8_t p_sum;
uint8_t p_len;
uint8_t p_off;
uint8_t p_data[MIEL_HVAC_DATABUFLEN];
};
struct miel_hvac_softc {
TasmotaSerial *sc_serial;
struct miel_hvac_parser sc_parser;
unsigned int sc_device;
unsigned int sc_tick;
bool sc_settings_set;
bool sc_connected;
struct miel_hvac_data sc_settings;
struct miel_hvac_data sc_temp;
struct miel_hvac_data sc_status;
struct miel_hvac_data sc_stage;
struct miel_hvac_msg_update
sc_update;
struct miel_hvac_msg_remotetemp
sc_remotetemp;
};
static inline bool
miel_hvac_update_pending(struct miel_hvac_softc *sc)
{
struct miel_hvac_msg_update *update = &sc->sc_update;
return (update->flags != htons(0));
}
static struct miel_hvac_softc *miel_hvac_sc = nullptr;
static void miel_hvac_input_connected(struct miel_hvac_softc *,
const void *, size_t);
static void miel_hvac_input_data(struct miel_hvac_softc *,
const void *, size_t);
static void miel_hvac_input_updated(struct miel_hvac_softc *,
const void *, size_t);
static enum miel_hvac_parser_state
miel_hvac_parse(struct miel_hvac_softc *sc, uint8_t byte)
{
struct miel_hvac_parser *p = &sc->sc_parser;
enum miel_hvac_parser_state nstate = p->p_state;
switch (p->p_state) {
case MIEL_HVAC_P_START:
if (byte != MIEL_HVAC_H_START)
return (MIEL_HVAC_P_START);
/* reset state */
p->p_sum = 0;
nstate = MIEL_HVAC_P_TYPE;
break;
case MIEL_HVAC_P_TYPE:
p->p_type = byte;
nstate = MIEL_HVAC_P_MIDDLE1;
break;
case MIEL_HVAC_P_MIDDLE1:
if (byte != MIEL_HVAC_H_MIDDLE1) {
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AddLog(LOG_LEVEL_DEBUG, PSTR(MIEL_HVAC_LOGNAME
": parse state MIDDLE1 expected %02x got %02x"
", restarting"), MIEL_HVAC_H_MIDDLE1, byte);
return (MIEL_HVAC_P_START);
}
nstate = MIEL_HVAC_P_MIDDLE2;
break;
case MIEL_HVAC_P_MIDDLE2:
if (byte != MIEL_HVAC_H_MIDDLE2) {
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AddLog(LOG_LEVEL_DEBUG, PSTR(MIEL_HVAC_LOGNAME
": parse state MIDDLE2 expected %02x got %02x"
", restarting"), MIEL_HVAC_H_MIDDLE2, byte);
return (MIEL_HVAC_P_START);
}
nstate = MIEL_HVAC_P_LEN;
break;
case MIEL_HVAC_P_LEN:
if (byte == 0) {
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AddLog(LOG_LEVEL_DEBUG, PSTR(MIEL_HVAC_LOGNAME
": skipping 0 byte message type 0x%02x"),
p->p_type);
return (MIEL_HVAC_P_SKIP_CKSUM);
}
p->p_len = byte;
p->p_off = 0;
switch (p->p_type) {
case MIEL_HVAC_H_TYPE_CONNECTED:
case MIEL_HVAC_H_TYPE_DATA:
case MIEL_HVAC_H_TYPE_UPDATED:
break;
default:
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AddLog(LOG_LEVEL_DEBUG, PSTR(MIEL_HVAC_LOGNAME
": skipping unknown message type 0x%02x"),
p->p_type);
return (MIEL_HVAC_P_SKIP);
}
if (byte > sizeof(p->p_data)) {
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AddLog(LOG_LEVEL_DEBUG, PSTR(MIEL_HVAC_LOGNAME
": skipping %u data bytes of message type 0x%02x"),
p->p_len, p->p_type);
return (MIEL_HVAC_P_SKIP);
}
nstate = MIEL_HVAC_P_DATA;
break;
case MIEL_HVAC_P_DATA:
p->p_data[p->p_off++] = byte;
if (p->p_off >= p->p_len)
nstate = MIEL_HVAC_P_CKSUM;
break;
case MIEL_HVAC_P_CKSUM:
if (miel_hvac_cksum_fini(p->p_sum) != byte) {
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AddLog(LOG_LEVEL_DEBUG, PSTR(MIEL_HVAC_LOGNAME
": checksum failed, restarting"));
return (MIEL_HVAC_P_START);
}
switch (p->p_type) {
case MIEL_HVAC_H_TYPE_CONNECTED:
miel_hvac_input_connected(sc, p->p_data, p->p_len);
break;
case MIEL_HVAC_H_TYPE_DATA:
miel_hvac_input_data(sc, p->p_data, p->p_len);
break;
case MIEL_HVAC_H_TYPE_UPDATED:
miel_hvac_input_updated(sc, p->p_data, p->p_len);
break;
}
/* this message is done, wait for another */
return (MIEL_HVAC_P_START);
case MIEL_HVAC_P_SKIP:
if (++p->p_off >= p->p_len)
return (MIEL_HVAC_P_SKIP_CKSUM);
return (nstate);
case MIEL_HVAC_P_SKIP_CKSUM:
return (MIEL_HVAC_P_START);
}
p->p_sum += byte;
return (nstate);
}
static uint8_t
miel_hvac_write(struct miel_hvac_softc *sc, const uint8_t *bytes, size_t len)
{
TasmotaSerial *serial = sc->sc_serial;
uint8_t cksum = 0;
size_t i;
for (i = 0; i < len; i++) {
uint8_t b = bytes[i];
serial->write(b);
cksum += b;
}
return (cksum);
}
static void
miel_hvac_send(struct miel_hvac_softc *sc, uint8_t type,
const void *data, size_t len)
{
TasmotaSerial *serial = sc->sc_serial;
struct miel_hvac_header h = {
MIEL_HVAC_H_START,
type,
MIEL_HVAC_H_MIDDLE1,
MIEL_HVAC_H_MIDDLE2,
(uint8_t)len,
};
uint8_t cksum = 0;
cksum += miel_hvac_write(sc, (const uint8_t *)&h, sizeof(h));
cksum += miel_hvac_write(sc, (const uint8_t *)data, len);
char hex_h[(sizeof(h) + 1) * 2];
char hex_d[(len + 1) * 2];
AddLog(LOG_LEVEL_DEBUG,
PSTR(MIEL_HVAC_LOGNAME ": sending %s %s %02x"),
ToHex_P((uint8_t *)&h, sizeof(h), hex_h, sizeof(hex_h)),
ToHex_P((uint8_t *)data, len, hex_d, sizeof(hex_d)),
miel_hvac_cksum_fini(cksum));
serial->write(miel_hvac_cksum_fini(cksum));
serial->flush();
}
#define miel_hvac_send_connect(_sc) \
miel_hvac_send((_sc), MIEL_HVAC_H_TYPE_CONNECT, \
miel_hvac_msg_connect, sizeof(miel_hvac_msg_connect))
static const struct miel_hvac_map *
miel_hvac_map_byname(const char *name,
const struct miel_hvac_map *m, size_t n)
{
const struct miel_hvac_map *e;
size_t i;
for (i = 0; i < n; i++) {
e = &m[i];
if (strcasecmp(e->name, name) == 0)
return (e);
}
return (NULL);
}
static const char *
miel_hvac_map_byval(uint8_t byte,
const struct miel_hvac_map *m, size_t n)
{
const struct miel_hvac_map *e;
size_t i;
for (i = 0; i < n; i++) {
e = &m[i];
if (byte == e->byte)
return (e->name);
}
return (NULL);
}
static void
miel_hvac_request(struct miel_hvac_softc *sc, uint8_t type)
{
struct miel_hvac_msg_request request = { type };
miel_hvac_send(sc, MIEL_HVAC_H_TYPE_REQUEST,
&request, sizeof(request));
}
static void
miel_hvac_init_update(struct miel_hvac_msg_update *update)
{
memset(update, 0, sizeof(*update));
update->one = 1;
}
static inline void
miel_hvac_send_update(struct miel_hvac_softc *sc,
const struct miel_hvac_msg_update *update)
{
miel_hvac_send(sc, MIEL_HVAC_H_TYPE_UPDATE, update, sizeof(*update));
}
static inline void
miel_hvac_send_remotetemp(struct miel_hvac_softc *sc,
const struct miel_hvac_msg_remotetemp *remotetemp)
{
miel_hvac_send(sc, MIEL_HVAC_H_TYPE_UPDATE,
remotetemp, sizeof(*remotetemp));
}
static bool
miel_hvac_set_power(struct miel_hvac_softc *sc)
{
struct miel_hvac_msg_update *update = &sc->sc_update;
uint16_t source = XdrvMailbox.payload;
if (source == SRC_SWITCH)
return (false);
update->flags |= htons(MIEL_HVAC_UPDATE_F_POWER);
update->power = (XdrvMailbox.index & (1 << sc->sc_device)) ?
MIEL_HVAC_UPDATE_POWER_ON : MIEL_HVAC_UPDATE_POWER_OFF;
return (true);
}
static void
miel_hvac_respond_unsupported(void)
{
ResponseCmndChar_P(PSTR("Unsupported"));
}
static void
miel_hvac_cmnd_setfanspeed(void)
{
struct miel_hvac_softc *sc = miel_hvac_sc;
struct miel_hvac_msg_update *update = &sc->sc_update;
const struct miel_hvac_map *e;
if (XdrvMailbox.data_len == 0)
return;
e = miel_hvac_map_byname(XdrvMailbox.data,
miel_hvac_fan_map, nitems(miel_hvac_fan_map));
if (e == NULL) {
miel_hvac_respond_unsupported();
return;
}
update->flags |= htons(MIEL_HVAC_UPDATE_F_FAN);
update->fan = e->byte;
ResponseCmndChar_P(e->name);
}
static void
miel_hvac_cmnd_setmode(void)
{
struct miel_hvac_softc *sc = miel_hvac_sc;
struct miel_hvac_msg_update *update = &sc->sc_update;
const struct miel_hvac_map *e;
if (XdrvMailbox.data_len == 0)
return;
e = miel_hvac_map_byname(XdrvMailbox.data,
miel_hvac_mode_map, nitems(miel_hvac_mode_map));
if (e == NULL) {
miel_hvac_respond_unsupported();
return;
}
update->flags |= htons(MIEL_HVAC_UPDATE_F_MODE);
update->mode = e->byte;
ResponseCmndChar_P(e->name);
}
static void
miel_hvac_cmnd_sethamode(void)
{
struct miel_hvac_softc *sc = miel_hvac_sc;
struct miel_hvac_msg_update *update = &sc->sc_update;
const struct miel_hvac_map *e;
if (XdrvMailbox.data_len == 0)
return;
if (strcasecmp(XdrvMailbox.data, "off") == 0) {
update->flags |= htons(MIEL_HVAC_UPDATE_F_POWER);
update->power = MIEL_HVAC_UPDATE_POWER_OFF;
ResponseCmndChar_P(PSTR("off"));
return;
}
/*
* I could set power and then call miel_hvac_cmnd_setmode,
* but that would mean power gets turned on even if there's
* an invalid argument.
*/
e = miel_hvac_map_byname(XdrvMailbox.data,
miel_hvac_mode_map, nitems(miel_hvac_mode_map));
if (e == NULL) {
miel_hvac_respond_unsupported();
return;
}
update->flags |= htons(MIEL_HVAC_UPDATE_F_POWER) |
htons(MIEL_HVAC_UPDATE_F_MODE);
update->power = MIEL_HVAC_UPDATE_POWER_ON;
update->mode = e->byte;
ResponseCmndChar_P(e->name);
}
static void
miel_hvac_cmnd_settemp(void)
{
struct miel_hvac_softc *sc = miel_hvac_sc;
struct miel_hvac_msg_update *update = &sc->sc_update;
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float degc;
if (XdrvMailbox.data_len == 0)
return;
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degc = strtof(XdrvMailbox.data, nullptr);
if (degc < MIEL_HVAC_UPDATE_TEMP_MIN ||
degc > MIEL_HVAC_UPDATE_TEMP_MAX) {
miel_hvac_respond_unsupported();
return;
}
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update->flags |= htons(MIEL_HVAC_UPDATE_F_TEMP);
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if (!temp_type) {
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update->temp = miel_hvac_deg2temp(degc);
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update->temp05 = 0;
}
else {
update->temp = 0;
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update->temp05 = miel_hvac_deg2temp(degc);
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}
ResponseCmndNumber(degc);
}
static void
miel_hvac_cmnd_setvane(void)
{
struct miel_hvac_softc *sc = miel_hvac_sc;
struct miel_hvac_msg_update *update = &sc->sc_update;
const struct miel_hvac_map *e;
if (XdrvMailbox.data_len == 0)
return;
e = miel_hvac_map_byname(XdrvMailbox.data,
miel_hvac_vane_map, nitems(miel_hvac_vane_map));
if (e == NULL) {
miel_hvac_respond_unsupported();
return;
}
update->flags |= htons(MIEL_HVAC_UPDATE_F_VANE);
update->vane = e->byte;
ResponseCmndChar_P(e->name);
}
static void
miel_hvac_cmnd_setwidevane(void)
{
struct miel_hvac_softc *sc = miel_hvac_sc;
struct miel_hvac_msg_update *update = &sc->sc_update;
const struct miel_hvac_map *e;
if (XdrvMailbox.data_len == 0)
return;
e = miel_hvac_map_byname(XdrvMailbox.data,
miel_hvac_widevane_map, nitems(miel_hvac_widevane_map));
if (e == NULL) {
miel_hvac_respond_unsupported();
return;
}
update->flags |= htons(MIEL_HVAC_UPDATE_F_WIDEVANE);
update->widevane = e->byte;
ResponseCmndChar_P(e->name);
}
static inline uint8_t
miel_hvac_remotetemp_degc2old(long degc)
{
/*
* If a remote temperature reading is provided that cannot be
* represented by the temp_old field, implicitly clamp it to the
* supported min or max. The hardware does this anyway if you
* provide a high value, but without this the min value will
* underflow and turn a high value that the hardware thinks is 38.
*/
if (degc < MIEL_HVAC_REMOTETEMP_OLD_MIN)
degc = MIEL_HVAC_REMOTETEMP_OLD_MIN;
else if (degc > MIEL_HVAC_REMOTETEMP_OLD_MAX)
degc = MIEL_HVAC_REMOTETEMP_OLD_MIN;
return ((degc - MIEL_HVAC_REMOTETEMP_OLD_MIN) *
MIEL_HVAC_REMOTETEMP_OLD_FACTOR);
}
static void
miel_hvac_cmnd_remotetemp(void)
{
struct miel_hvac_softc *sc = miel_hvac_sc;
struct miel_hvac_msg_remotetemp *rt = &sc->sc_remotetemp;
uint8_t control = MIEL_HVAC_REMOTETEMP_SET;
long degc;
if (XdrvMailbox.data_len == 0)
return;
if (strcasecmp(XdrvMailbox.data, "clear") == 0) {
control = MIEL_HVAC_REMOTETEMP_CLR;
degc = 0;
ResponseCmndChar_P("clear");
} else {
degc = strtol(XdrvMailbox.data, nullptr, 0);
/* clamp the argument to supported values */
if (degc < MIEL_HVAC_REMOTETEMP_MIN)
degc = MIEL_HVAC_REMOTETEMP_MIN;
else if (degc > MIEL_HVAC_REMOTETEMP_MAX)
degc = MIEL_HVAC_REMOTETEMP_MAX;
ResponseCmndNumber(degc);
}
memset(rt, 0, sizeof(*rt));
rt->seven = 0x7;
rt->control = control;
/*
* Different HVACs (or more likely different generations
* of these HVACs) have different ways to encode the remote
* temperature value. This provides both of them to hopefully
* support all known types of HVACs.
*/
rt->temp_old = miel_hvac_remotetemp_degc2old(degc);
rt->temp = (degc + MIEL_HVAC_REMOTETEMP_OFFSET) *
MIEL_HVAC_REMOTETEMP_OLD_FACTOR;
}
#ifdef MIEL_HVAC_DEBUG
static void
miel_hvac_cmnd_request(void)
{
struct miel_hvac_softc *sc = miel_hvac_sc;
uint8_t type = MIEL_HVAC_REQUEST_ROOMTEMP;
if (XdrvMailbox.data_len > 0)
type = strtoul(XdrvMailbox.data, nullptr, 0);
miel_hvac_request(sc, type);
ResponseCmndDone();
}
#endif
/*
* serial data handlers
*/
static void
miel_hvac_log_bytes(struct miel_hvac_softc *sc, const char *name,
const void *buf, size_t len)
{
char hex[(MIEL_HVAC_DATABUFLEN + 1) * 2];
const unsigned char *b = (const unsigned char *)buf;
AddLog(LOG_LEVEL_DEBUG, PSTR(MIEL_HVAC_LOGNAME
": response %s %s"), name, ToHex_P(b, len, hex, sizeof(hex)));
}
static void
miel_hvac_input_connected(struct miel_hvac_softc *sc,
const void *buf, size_t len)
{
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AddLog(LOG_LEVEL_INFO,
PSTR(MIEL_HVAC_LOGNAME ": connected to Mitsubishi Electric HVAC"));
sc->sc_connected = 1;
}
static void
miel_hvac_publish_settings(struct miel_hvac_softc *sc)
{
const struct miel_hvac_data_settings *set =
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&sc->sc_settings.data.settings;
char hex[(sizeof(sc->sc_settings) + 1) * 2];
char temp[33];
const char *name;
Response_P(PSTR("{\"" D_JSON_IRHVAC_POWER "\":\"%s\""),
set->power ? "ON" : "OFF");
name = miel_hvac_map_byval( set->mode &
MIEL_HVAC_SETTINGS_MODE_MASK,
miel_hvac_mode_map, nitems(miel_hvac_mode_map));
if (name != NULL) {
ResponseAppend_P(PSTR(",\"" D_JSON_IRHVAC_MODE "\":\"%s\""),
name);
ResponseAppend_P(PSTR(",\"HA" D_JSON_IRHVAC_MODE "\":\"%s\""),
set->power ? name : "off");
}
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if (set->temp05 == 0) {
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dtostrfd(ConvertTemp(miel_hvac_temp2deg(set->temp)),
Settings->flag2.temperature_resolution, temp);
}
else {
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temp_type = true;
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dtostrfd(ConvertTemp(miel_hvac_temp2deg(set->temp05)),
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Settings->flag2.temperature_resolution, temp);
}
ResponseAppend_P(PSTR(",\"" D_JSON_IRHVAC_TEMP "\":%s"), temp);
name = miel_hvac_map_byval(set->fan,
miel_hvac_fan_map, nitems(miel_hvac_fan_map));
if (name != NULL) {
ResponseAppend_P(PSTR(",\"" D_JSON_IRHVAC_FANSPEED "\":\"%s\""),
name);
}
name = miel_hvac_map_byval(set->vane,
miel_hvac_vane_map, nitems(miel_hvac_vane_map));
if (name != NULL) {
ResponseAppend_P(PSTR(",\"" D_JSON_IRHVAC_SWINGV "\":\"%s\""),
name);
}
name = miel_hvac_map_byval(set->widevane &
MIEL_HVAC_SETTTINGS_WIDEVANE_MASK,
miel_hvac_widevane_map, nitems(miel_hvac_widevane_map));
if (name != NULL) {
ResponseAppend_P(PSTR(",\"" D_JSON_IRHVAC_SWINGH "\":\"%s\""),
name);
}
ResponseAppend_P(PSTR(",\"Bytes\":\"%s\""),
ToHex_P((uint8_t *)&sc->sc_settings, sizeof(sc->sc_settings),
hex, sizeof(hex)));
ResponseAppend_P(PSTR("}"));
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MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("HVACSettings"));
}
static void
miel_hvac_input_settings(struct miel_hvac_softc *sc,
const struct miel_hvac_data *d)
{
const struct miel_hvac_data_settings *set = &d->data.settings;
uint32_t state = set->power ? 1 : 0; /* see ExecuteCommandPower */
bool publish;
if (miel_hvac_update_pending(sc)) {
/*
* Don't flop around printing settings that we might be
* changing, but also force them to be published again.
*/
sc->sc_settings_set = 0;
return;
}
2020-10-28 18:03:39 +00:00
if (bitRead(TasmotaGlobal.power, sc->sc_device) != !!state)
ExecuteCommandPower(sc->sc_device, state, SRC_SWITCH);
publish = (sc->sc_settings_set == 0) ||
(memcmp(d, &sc->sc_settings, sizeof(sc->sc_settings)) != 0);
sc->sc_settings_set = 1;
sc->sc_settings = *d;
if (publish)
miel_hvac_publish_settings(sc);
}
static void
miel_hvac_data_response(struct miel_hvac_softc *sc,
const struct miel_hvac_data *d)
{
char hex[(sizeof(*d) + 1) * 2];
Response_P(PSTR("{\"Bytes\":\"%s\"}"),
ToHex_P((uint8_t *)d, sizeof(*d), hex, sizeof(hex)));
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MqttPublishPrefixTopicRulesProcess_P(TELE, PSTR("HVACData"));
}
static void
miel_hvac_input_sensor(struct miel_hvac_softc *sc, struct miel_hvac_data *dst,
const struct miel_hvac_data *src)
{
bool publish;
publish = (memcmp(dst, src, sizeof(*dst)) != 0);
*dst = *src;
if (publish)
MqttPublishSensor();
}
static void
miel_hvac_input_data(struct miel_hvac_softc *sc,
const void *buf, size_t len)
{
const struct miel_hvac_data *d;
miel_hvac_log_bytes(sc, "data", buf, len);
if (len < sizeof(*d)) {
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AddLog(LOG_LEVEL_DEBUG, PSTR(MIEL_HVAC_LOGNAME
": short data response (%zu < %zu)"), len, sizeof(*d));
return;
}
d = (const struct miel_hvac_data *)buf;
switch (d->type) {
case MIEL_HVAC_DATA_T_SETTINGS:
miel_hvac_input_settings(sc, d);
break;
case MIEL_HVAC_DATA_T_ROOMTEMP:
miel_hvac_input_sensor(sc, &sc->sc_temp, d);
break;
case MIEL_HVAC_DATA_T_STATUS:
miel_hvac_input_sensor(sc, &sc->sc_status, d);
break;
case MIEL_HVAC_DATA_T_STAGE:
miel_hvac_input_sensor(sc, &sc->sc_stage, d);
break;
default:
miel_hvac_data_response(sc, d);
break;
}
}
static void
miel_hvac_input_updated(struct miel_hvac_softc *sc,
const void *buf, size_t len)
{
miel_hvac_log_bytes(sc, "updated", buf, len);
}
/*
* FUNC handlers
*/
static void
miel_hvac_pre_init(void)
{
struct miel_hvac_softc *sc;
int baudrate = 2400;
if (!PinUsed(GPIO_MIEL_HVAC_TX) || !PinUsed(GPIO_MIEL_HVAC_RX))
return;
sc = (struct miel_hvac_softc *)malloc(sizeof(*sc));
if (sc == NULL) {
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AddLog(LOG_LEVEL_ERROR,
PSTR(MIEL_HVAC_LOGNAME ": unable to allocate state"));
return;
}
memset(sc, 0, sizeof(*sc));
miel_hvac_init_update(&sc->sc_update);
sc->sc_serial = new TasmotaSerial(Pin(GPIO_MIEL_HVAC_RX),
Pin(GPIO_MIEL_HVAC_TX), 2);
if (!sc->sc_serial->begin(baudrate, 2)) {
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AddLog(LOG_LEVEL_ERROR,
PSTR(MIEL_HVAC_LOGNAME ": unable to begin serial "
"(baudrate %d)"), baudrate);
goto del;
}
if (sc->sc_serial->hardwareSerial()) {
ClaimSerial();
SetSerial(baudrate, TS_SERIAL_8E1);
}
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sc->sc_device = TasmotaGlobal.devices_present++; /* claim a POWER device slot */
miel_hvac_sc = sc;
return;
del:
delete sc->sc_serial;
free:
free(sc);
}
static void
miel_hvac_loop(struct miel_hvac_softc *sc)
{
TasmotaSerial *serial = sc->sc_serial;
while (serial->available()) {
yield();
sc->sc_parser.p_state = miel_hvac_parse(sc, serial->read());
}
}
static void
miel_hvac_sensor(struct miel_hvac_softc *sc)
{
char hex[(sizeof(sc->sc_status) + 1) * 2];
const char *sep = "";
ResponseAppend_P(PSTR("," "\"MiElHVAC\":{"));
if (sc->sc_temp.type != 0) {
const struct miel_hvac_data_roomtemp *rt =
&sc->sc_temp.data.roomtemp;
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char room_temp[33];
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if(rt->temp05 == 0) {
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unsigned int temp = miel_hvac_roomtemp2deg(rt->temp);
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dtostrfd(ConvertTemp(temp),
Settings->flag2.temperature_resolution, room_temp);
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}
else {
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temp_type = true;
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float temp = miel_hvac_roomtemp2deg(rt->temp05);
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dtostrfd(ConvertTemp(temp),
Settings->flag2.temperature_resolution, room_temp);
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}
ResponseAppend_P(PSTR("\"" D_JSON_TEMPERATURE "\":%s"),
room_temp);
sep = ",";
}
if (sc->sc_status.type != 0) {
const struct miel_hvac_data_status *s =
&sc->sc_status.data.status;
ResponseAppend_P(PSTR("%s" "\"Operation\":\"%s\"" ","
"\"Compressor\":\"%s\""), sep,
s->operation ? "ON" : "OFF",
s->compressor ? "ON" : "OFF");
sep = ",";
}
if (sc->sc_temp.type != 0) {
ResponseAppend_P(PSTR("%s" "\"roomtemp\":\"%s\""), sep,
ToHex_P((uint8_t *)&sc->sc_temp, sizeof(sc->sc_temp),
hex, sizeof(hex)));
sep = ",";
}
if (sc->sc_status.type != 0) {
ResponseAppend_P(PSTR("%s" "\"status\":\"%s\""), sep,
ToHex_P((uint8_t *)&sc->sc_status, sizeof(sc->sc_status),
hex, sizeof(hex)));
sep = ",";
}
if (sc->sc_stage.type != 0) {
ResponseAppend_P(PSTR("%s" "\"stage\":\"%s\""), sep,
ToHex_P((uint8_t *)&sc->sc_stage, sizeof(sc->sc_stage),
hex, sizeof(hex)));
}
ResponseAppend_P(PSTR("}"));
}
/*
* This is set up to pace interactions with the aircon so we should
* only have a single outstanding request at a time, and to avoid trying
* to change settings while in the middle of reading them. SETTINGS is
* requested frequently so changes from the IR remote are noticed quickly
* and published. Posting new settings preempts queries for information.
*/
enum miel_hvac_connect_states {
MIEL_HVAC_CONNECT_S_2400_MSG,
MIEL_HVAC_CONNECT_S_9600,
MIEL_HVAC_CONNECT_S_9600_MSG,
MIEL_HVAC_CONNECT_S_2400,
MIEL_HVAC_CONNECT_S_COUNT,
};
static void
miel_hvac_connect(struct miel_hvac_softc *sc)
{
TasmotaSerial *serial = sc->sc_serial;
uint32_t baudrate;
unsigned int state;
state = (sc->sc_tick++ % MIEL_HVAC_CONNECT_S_COUNT);
switch (state) {
case MIEL_HVAC_CONNECT_S_2400:
baudrate = 2400;
break;
case MIEL_HVAC_CONNECT_S_9600:
baudrate = 9600;
break;
default:
miel_hvac_send_connect(sc);
return;
}
serial->begin(baudrate, 2);
if (serial->hardwareSerial())
SetSerial(baudrate, TS_SERIAL_8E1);
}
static void
miel_hvac_tick(struct miel_hvac_softc *sc)
{
static const uint8_t updates[] = {
MIEL_HVAC_REQUEST_SETTINGS,
MIEL_HVAC_REQUEST_STATUS,
MIEL_HVAC_REQUEST_SETTINGS,
MIEL_HVAC_REQUEST_ROOMTEMP,
MIEL_HVAC_REQUEST_SETTINGS,
/* MUZ-GA80VA doesnt respond :( */
MIEL_HVAC_REQUEST_STAGE,
};
unsigned int i;
if (miel_hvac_update_pending(sc)) {
struct miel_hvac_msg_update *update = &sc->sc_update;
miel_hvac_send_update(sc, update);
miel_hvac_init_update(update);
/* refresh settings on next tick */
sc->sc_tick = 0;
return;
}
if (sc->sc_remotetemp.seven) {
struct miel_hvac_msg_remotetemp *remotetemp =
&sc->sc_remotetemp;
miel_hvac_send_remotetemp(sc, remotetemp);
memset(remotetemp, 0, sizeof(*remotetemp));
return;
}
i = (sc->sc_tick++ % nitems(updates));
miel_hvac_request(sc, updates[i]);
}
/*********************************************************************************************\
* Interface
\*********************************************************************************************/
static const char miel_hvac_cmnd_names[] PROGMEM =
// No prefix
"|" D_CMND_MIEL_HVAC_SETFANSPEED
"|" D_CMND_MIEL_HVAC_SETMODE
"|" D_CMND_MIEL_HVAC_SETHAMODE
"|" D_CMND_MIEL_HVAC_SETTEMP
"|" D_CMND_MIEL_HVAC_SETSWINGV
"|" D_CMND_MIEL_HVAC_SETSWINGH
"|" D_CMND_MIEL_HVAC_REMOTETEMP
#ifdef MIEL_HVAC_DEBUG
"|" "HVACRequest"
#endif
;
static void (*const miel_hvac_cmnds[])(void) PROGMEM = {
&miel_hvac_cmnd_setfanspeed,
&miel_hvac_cmnd_setmode,
&miel_hvac_cmnd_sethamode, /* rain of hate */
&miel_hvac_cmnd_settemp,
&miel_hvac_cmnd_setvane,
&miel_hvac_cmnd_setwidevane,
&miel_hvac_cmnd_remotetemp,
#ifdef MIEL_HVAC_DEBUG
&miel_hvac_cmnd_request,
#endif
};
bool Xdrv44(uint8_t function) {
bool result = false;
struct miel_hvac_softc *sc = miel_hvac_sc;
switch (function) {
case FUNC_PRE_INIT:
miel_hvac_pre_init();
return (false);
}
if (sc == NULL)
return (false);
switch (function) {
case FUNC_LOOP:
miel_hvac_loop(sc);
break;
case FUNC_SET_DEVICE_POWER:
result = miel_hvac_set_power(sc);
break;
case FUNC_EVERY_250_MSECOND:
if (sc->sc_connected)
miel_hvac_tick(sc);
else
miel_hvac_connect(sc);
break;
case FUNC_EVERY_50_MSECOND:
case FUNC_EVERY_100_MSECOND:
case FUNC_EVERY_200_MSECOND:
case FUNC_EVERY_SECOND:
break;
case FUNC_JSON_APPEND:
miel_hvac_sensor(sc);
break;
case FUNC_AFTER_TELEPERIOD:
if (sc->sc_settings_set)
miel_hvac_publish_settings(sc);
break;
case FUNC_COMMAND:
result = DecodeCommand(miel_hvac_cmnd_names, miel_hvac_cmnds);
break;
}
return (result);
}
#endif // USE_MIEL_HVAC