Merge branch 'development' of github.com:arendst/Tasmota into pr_tm1638

This commit is contained in:
Ajith Vasudevan 2021-03-08 09:50:35 +05:30
commit 8470087886
12 changed files with 417 additions and 129 deletions

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@ -5,22 +5,36 @@ All notable changes to this project will be documented in this file.
## [9.3.1.1] ## [9.3.1.1]
### Added ### Added
- Support for CSE7761 energy monitor as used in ESP32 based Sonoff Dual R3 Pow (#10793)
- Command ``Sensor80 1 <0..7>`` to control MFRC522 RFID antenna gain from 18dB (0) to 48dB (7) (#11073)
- Allow MCP230xx pinmode from output to input (#11104) - Allow MCP230xx pinmode from output to input (#11104)
- SML VBUS support (#11125) - SML VBUS support (#11125)
- Command ``Sensor80 1 <0..7>`` to control MFRC522 RFID antenna gain from 18dB (0) to 48dB (7) (#11073)
- Support for NEC and OPTOMA LCD/DLP Projector serial power control by Jan Bubík (#11145) - Support for NEC and OPTOMA LCD/DLP Projector serial power control by Jan Bubík (#11145)
- Support for XPT2046 touch screen digitizer on ILI9341 display by nonix (#11159)
- Berry improvements (#11163)
- Support for zigbee lumi.sensor_wleak (#11200)
- Crash protection in ext_vnsprintf_P (#11202)
- Extent compile time SetOptions support (#11204)
- ESP32 Extent BLE (#11212)
### Changed ### Changed
- TuyaMcu dimmer timeout (#11121) - ESP32 core library from v1.0.5-rc6 to v1.0.5
- TasmotaSerial library from v3.2.0 to v3.3.0 - TasmotaSerial library from v3.2.0 to v3.3.0
- TuyaMcu dimmer timeout (#11121)
- Rename epaper 42 commands (#11222)
- DeepSleep announcement topic (#11223)
### Fixed ### Fixed
- PN532 on ESP32 Serial flush both Tx and Rx buffers (#10910)
- Light scheme related color changes (#11041)
- Refactor acceleration function for shutter stepper and servo (#11088) - Refactor acceleration function for shutter stepper and servo (#11088)
- LM75AD detection on different addresses (#11096) - LM75AD detection on different addresses (#11096)
- Timer loop when console is scrolled up regression from v9.3.0 (#11108) - Timer loop when console is scrolled up regression from v9.3.0 (#11108)
- Display exception when no file system is present (#11125) - Display exception when no file system is present (#11125)
- PN532 on ESP32 Serial flush both Tx and Rx buffers (#10910) - Scripter and SML fixes (#11150)
- Light scheme related color changes (#11041) - Zigbee exception when bad frame is received (#11192)
- ESP32 flash script for Odroid and Core2 (#11227)
- ESP32 WS2812 bitbang support (#11248)
## [Released] ## [Released]

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@ -58,7 +58,7 @@ Above binaries are also available as gzipped version allowing faster uploads.
The attached binaries can also be downloaded from http://ota.tasmota.com/tasmota/release. The links can be used for OTA upgrades too like ``OtaUrl http://ota.tasmota.com/tasmota/release/tasmota.bin.gz`` The attached binaries can also be downloaded from http://ota.tasmota.com/tasmota/release. The links can be used for OTA upgrades too like ``OtaUrl http://ota.tasmota.com/tasmota/release/tasmota.bin.gz``
### ESP32 based ### ESP32 based
The following binary downloads have been compiled with ESP32/Arduino library core version **1.0.5-rc6**. The following binary downloads have been compiled with ESP32/Arduino library core version **1.0.5**.
- **tasmota32.bin** = The Tasmota version with most drivers. **RECOMMENDED RELEASE BINARY** - **tasmota32.bin** = The Tasmota version with most drivers. **RECOMMENDED RELEASE BINARY**
- **tasmota32-BG.bin** to **tasmota32-TW.bin** = The Tasmota version in different languages. - **tasmota32-BG.bin** to **tasmota32-TW.bin** = The Tasmota version in different languages.
@ -83,16 +83,29 @@ The attached binaries can also be downloaded from http://ota.tasmota.com/tasmota
- Command ``Sensor80 1 <0..7>`` to control MFRC522 RFID antenna gain from 18dB (0) to 48dB (7) [#11073](https://github.com/arendst/Tasmota/issues/11073) - Command ``Sensor80 1 <0..7>`` to control MFRC522 RFID antenna gain from 18dB (0) to 48dB (7) [#11073](https://github.com/arendst/Tasmota/issues/11073)
- Support for SML VBUS [#11125](https://github.com/arendst/Tasmota/issues/11125) - Support for SML VBUS [#11125](https://github.com/arendst/Tasmota/issues/11125)
- Support for NEC and OPTOMA LCD/DLP Projector serial power control by Jan Bubík [#11145](https://github.com/arendst/Tasmota/issues/11145) - Support for NEC and OPTOMA LCD/DLP Projector serial power control by Jan Bubík [#11145](https://github.com/arendst/Tasmota/issues/11145)
- Support for XPT2046 touch screen digitizer on ILI9341 display by nonix [#11159](https://github.com/arendst/Tasmota/issues/11159)
- Support for zigbee lumi.sensor_wleak [#11200](https://github.com/arendst/Tasmota/issues/11200)
- Support for CSE7761 energy monitor as used in ESP32 based Sonoff Dual R3 Pow [#10793](https://github.com/arendst/Tasmota/issues/10793)
- Allow MCP230xx pinmode from output to input [#11104](https://github.com/arendst/Tasmota/issues/11104) - Allow MCP230xx pinmode from output to input [#11104](https://github.com/arendst/Tasmota/issues/11104)
- Berry improvements [#11163](https://github.com/arendst/Tasmota/issues/11163)
- Extent compile time SetOptions support [#11204](https://github.com/arendst/Tasmota/issues/11204)
- ESP32 Extent BLE [#11212](https://github.com/arendst/Tasmota/issues/11212)
### Changed ### Changed
- TuyaMcu dimmer timeout [#11121](https://github.com/arendst/Tasmota/issues/11121)
- TasmotaSerial library from v3.2.0 to v3.3.0 - TasmotaSerial library from v3.2.0 to v3.3.0
- ESP32 core library from v1.0.5-rc6 to v1.0.5
- TuyaMcu dimmer timeout [#11121](https://github.com/arendst/Tasmota/issues/11121)
- Rename epaper 42 commands [#11222](https://github.com/arendst/Tasmota/issues/11222)
- DeepSleep announcement topic [#11223](https://github.com/arendst/Tasmota/issues/11223)
### Fixed ### Fixed
- PN532 on ESP32 Serial flush both Tx and Rx buffers [#10910](https://github.com/arendst/Tasmota/issues/10910)
- Light scheme related color changes [#11041](https://github.com/arendst/Tasmota/issues/11041)
- Refactor acceleration function for shutter stepper and servo [#11088](https://github.com/arendst/Tasmota/issues/11088) - Refactor acceleration function for shutter stepper and servo [#11088](https://github.com/arendst/Tasmota/issues/11088)
- LM75AD detection on different addresses [#11096](https://github.com/arendst/Tasmota/issues/11096) - LM75AD detection on different addresses [#11096](https://github.com/arendst/Tasmota/issues/11096)
- Timer loop when console is scrolled up regression from v9.3.0 [#11108](https://github.com/arendst/Tasmota/issues/11108) - Timer loop when console is scrolled up regression from v9.3.0 [#11108](https://github.com/arendst/Tasmota/issues/11108)
- Display exception when no file system is present [#11125](https://github.com/arendst/Tasmota/issues/11125) - Display exception when no file system is present [#11125](https://github.com/arendst/Tasmota/issues/11125)
- PN532 on ESP32 Serial flush both Tx and Rx buffers [#10910](https://github.com/arendst/Tasmota/issues/10910) - Scripter and SML fixes [#11150](https://github.com/arendst/Tasmota/issues/11150)
- Light scheme related color changes [#11041](https://github.com/arendst/Tasmota/issues/11041) - Zigbee exception when bad frame is received [#11192](https://github.com/arendst/Tasmota/issues/11192)
- ESP32 flash script for Odroid and Core2 [#11227](https://github.com/arendst/Tasmota/issues/11227)
- ESP32 WS2812 bitbang support [#11248](https://github.com/arendst/Tasmota/issues/11248)

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@ -0,0 +1,115 @@
/*-------------------------------------------------------------------------
NeoPixel library helper functions for Esp8266 and Esp32
Written by Michael C. Miller.
I invest time and resources providing this open source code,
please support me by dontating (see https://github.com/Makuna/NeoPixelBus)
-------------------------------------------------------------------------
This file is part of the Makuna/NeoPixelBus library.
NeoPixelBus is free software: you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as
published by the Free Software Foundation, either version 3 of
the License, or (at your option) any later version.
NeoPixelBus 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with NeoPixel. If not, see
<http://www.gnu.org/licenses/>.
-------------------------------------------------------------------------*/
#if defined(ARDUINO_ARCH_ESP8266) || defined(ARDUINO_ARCH_ESP32)
#include <Arduino.h>
#include "NeoEspBitBangMethod.h"
static inline uint32_t getCycleCount(void)
{
uint32_t ccount;
__asm__ __volatile__("rsr %0,ccount":"=a" (ccount));
return ccount;
}
void ICACHE_RAM_ATTR NeoEspBitBangBase_send_pixels(uint8_t* pixels, uint8_t* end, uint8_t pin, uint32_t t0h, uint32_t t1h, uint32_t period, uint8_t IdleLevel)
{
const uint32_t pinRegister = _BV(pin);
uint8_t mask = 0x80;
uint8_t subpix = *pixels++;
uint32_t cyclesStart = 0; // trigger emediately
uint32_t cyclesNext = 0;
for (;;)
{
// do the checks here while we are waiting on time to pass
uint32_t cyclesBit = t0h;
if (subpix & mask)
{
cyclesBit = t1h;
}
// after we have done as much work as needed for this next bit
// now wait for the HIGH
while (((cyclesStart = getCycleCount()) - cyclesNext) < period);
// set pin state
if (IdleLevel == LOW) {
#if defined(ARDUINO_ARCH_ESP32)
GPIO.out_w1ts = pinRegister;
#else
GPIO_REG_WRITE(GPIO_OUT_W1TS_ADDRESS, pinRegister);
#endif
} else {
#if defined(ARDUINO_ARCH_ESP32)
GPIO.out_w1tc = pinRegister;
#else
GPIO_REG_WRITE(GPIO_OUT_W1TC_ADDRESS, pinRegister);
#endif
}
// T_PINSET::setPin(pinRegister);
// wait for the LOW
while ((getCycleCount() - cyclesStart) < cyclesBit);
// reset pin start
if (IdleLevel == LOW) {
#if defined(ARDUINO_ARCH_ESP32)
GPIO.out_w1tc = pinRegister;
#else
GPIO_REG_WRITE(GPIO_OUT_W1TC_ADDRESS, pinRegister);
#endif
} else {
#if defined(ARDUINO_ARCH_ESP32)
GPIO.out_w1ts = pinRegister;
#else
GPIO_REG_WRITE(GPIO_OUT_W1TS_ADDRESS, pinRegister);
#endif
}
// T_PINSET::resetPin(pinRegister);
cyclesNext = cyclesStart;
// next bit
mask >>= 1;
if (mask == 0)
{
// no more bits to send in this byte
// check for another byte
if (pixels >= end)
{
// no more bytes to send so stop
break;
}
// reset mask to first bit and get the next byte
mask = 0x80;
subpix = *pixels++;
}
}
}
#endif

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@ -55,6 +55,14 @@ public:
const static uint32_t Period = (F_CPU / 800000 - CYCLES_LOOPTEST); // 1.25us per bit const static uint32_t Period = (F_CPU / 800000 - CYCLES_LOOPTEST); // 1.25us per bit
}; };
class NeoEspSpeedTm1829
{
public:
const static uint32_t T0H = (F_CPU / 3333333 - CYCLES_LOOPTEST); // 0.3us
const static uint32_t T1H = (F_CPU / 1250000 - CYCLES_LOOPTEST); // 0.8us
const static uint32_t Period = (F_CPU / 800000 - CYCLES_LOOPTEST); // 1.25us per bit
};
class NeoEspSpeed800Mhz class NeoEspSpeed800Mhz
{ {
public: public:
@ -83,109 +91,22 @@ class NeoEspPinset
{ {
public: public:
const static uint8_t IdleLevel = LOW; const static uint8_t IdleLevel = LOW;
inline static void setPin(const uint32_t pinRegister)
{
#if defined(ARDUINO_ARCH_ESP32)
GPIO.out_w1ts = pinRegister;
#else
GPIO_REG_WRITE(GPIO_OUT_W1TS_ADDRESS, pinRegister);
#endif
}
inline static void resetPin(const uint32_t pinRegister)
{
#if defined(ARDUINO_ARCH_ESP32)
GPIO.out_w1tc = pinRegister;
#else
GPIO_REG_WRITE(GPIO_OUT_W1TC_ADDRESS, pinRegister);
#endif
}
}; };
class NeoEspPinsetInverted class NeoEspPinsetInverted
{ {
public: public:
const static uint8_t IdleLevel = HIGH; const static uint8_t IdleLevel = HIGH;
inline static void setPin(const uint32_t pinRegister)
{
#if defined(ARDUINO_ARCH_ESP32)
GPIO.out_w1tc = pinRegister;
#else
GPIO_REG_WRITE(GPIO_OUT_W1TC_ADDRESS, pinRegister);
#endif
}
inline static void resetPin(const uint32_t pinRegister)
{
#if defined(ARDUINO_ARCH_ESP32)
GPIO.out_w1ts = pinRegister;
#else
GPIO_REG_WRITE(GPIO_OUT_W1TS_ADDRESS, pinRegister);
#endif
}
}; };
extern void NeoEspBitBangBase_send_pixels(uint8_t* pixels, uint8_t* end, uint8_t pin, uint32_t t0h, uint32_t t1h, uint32_t period, uint8_t IdleLevel);
template<typename T_SPEED, typename T_PINSET> class NeoEspBitBangBase template<typename T_SPEED, typename T_PINSET> class NeoEspBitBangBase
{ {
public: public:
__attribute__((noinline)) static void ICACHE_RAM_ATTR send_pixels(uint8_t* pixels, uint8_t* end, uint8_t pin) static void send_pixels(uint8_t* pixels, uint8_t* end, uint8_t pin)
{ {
const uint32_t pinRegister = _BV(pin); NeoEspBitBangBase_send_pixels(pixels, end, pin, T_SPEED::T0H, T_SPEED::T1H, T_SPEED::Period, T_PINSET::IdleLevel);
uint8_t mask = 0x80;
uint8_t subpix = *pixels++;
uint32_t cyclesStart = 0; // trigger emediately
uint32_t cyclesNext = 0;
for (;;)
{
// do the checks here while we are waiting on time to pass
uint32_t cyclesBit = T_SPEED::T0H;
if (subpix & mask)
{
cyclesBit = T_SPEED::T1H;
}
// after we have done as much work as needed for this next bit
// now wait for the HIGH
while (((cyclesStart = getCycleCount()) - cyclesNext) < T_SPEED::Period);
// set pin state
T_PINSET::setPin(pinRegister);
// wait for the LOW
while ((getCycleCount() - cyclesStart) < cyclesBit);
// reset pin start
T_PINSET::resetPin(pinRegister);
cyclesNext = cyclesStart;
// next bit
mask >>= 1;
if (mask == 0)
{
// no more bits to send in this byte
// check for another byte
if (pixels >= end)
{
// no more bytes to send so stop
break;
}
// reset mask to first bit and get the next byte
mask = 0x80;
subpix = *pixels++;
}
}
}
protected:
static inline uint32_t getCycleCount(void)
{
uint32_t ccount;
__asm__ __volatile__("rsr %0,ccount":"=a" (ccount));
return ccount;
} }
}; };
@ -214,6 +135,13 @@ public:
static const uint32_t ResetTimeUs = 200; static const uint32_t ResetTimeUs = 200;
}; };
// normal is inverted signal
class NeoEspBitBangSpeedTm1829 : public NeoEspBitBangBase<NeoEspSpeedTm1829, NeoEspPinsetInverted>
{
public:
static const uint32_t ResetTimeUs = 200;
};
class NeoEspBitBangSpeed800Kbps : public NeoEspBitBangBase<NeoEspSpeed800Mhz, NeoEspPinset> class NeoEspBitBangSpeed800Kbps : public NeoEspBitBangBase<NeoEspSpeed800Mhz, NeoEspPinset>
{ {
public: public:
@ -257,6 +185,13 @@ public:
static const uint32_t ResetTimeUs = 200; static const uint32_t ResetTimeUs = 200;
}; };
// normal is inverted signal, so inverted is normal
class NeoEspBitBangInvertedSpeedTm1829 : public NeoEspBitBangBase<NeoEspSpeedTm1829, NeoEspPinset>
{
public:
static const uint32_t ResetTimeUs = 200;
};
class NeoEspBitBangInvertedSpeed800Kbps : public NeoEspBitBangBase<NeoEspSpeed800Mhz, NeoEspPinsetInverted> class NeoEspBitBangInvertedSpeed800Kbps : public NeoEspBitBangBase<NeoEspSpeed800Mhz, NeoEspPinsetInverted>
{ {
public: public:
@ -369,6 +304,7 @@ typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedWs2811, NeoEspPinset> NeoEsp32
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedWs2812x, NeoEspPinset> NeoEsp32BitBangWs2812xMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedWs2812x, NeoEspPinset> NeoEsp32BitBangWs2812xMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedSk6812, NeoEspPinset> NeoEsp32BitBangSk6812Method; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedSk6812, NeoEspPinset> NeoEsp32BitBangSk6812Method;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedTm1814, NeoEspPinsetInverted> NeoEsp32BitBangTm1814Method; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedTm1814, NeoEspPinsetInverted> NeoEsp32BitBangTm1814Method;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedTm1829, NeoEspPinsetInverted> NeoEsp32BitBangTm1829Method;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeed800Kbps, NeoEspPinset> NeoEsp32BitBang800KbpsMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeed800Kbps, NeoEspPinset> NeoEsp32BitBang800KbpsMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeed400Kbps, NeoEspPinset> NeoEsp32BitBang400KbpsMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeed400Kbps, NeoEspPinset> NeoEsp32BitBang400KbpsMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedApa106, NeoEspPinset> NeoEsp32BitBangApa106Method; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedApa106, NeoEspPinset> NeoEsp32BitBangApa106Method;
@ -381,6 +317,7 @@ typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedWs2811, NeoEspPinsetIn
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedWs2812x, NeoEspPinsetInverted> NeoEsp32BitBangWs2812xInvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedWs2812x, NeoEspPinsetInverted> NeoEsp32BitBangWs2812xInvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedSk6812, NeoEspPinsetInverted> NeoEsp32BitBangSk6812InvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedSk6812, NeoEspPinsetInverted> NeoEsp32BitBangSk6812InvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedTm1814, NeoEspPinset> NeoEsp32BitBangTm1814InvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedTm1814, NeoEspPinset> NeoEsp32BitBangTm1814InvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedTm1829, NeoEspPinset> NeoEsp32BitBangTm1829InvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeed800Kbps, NeoEspPinsetInverted> NeoEsp32BitBang800KbpsInvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeed800Kbps, NeoEspPinsetInverted> NeoEsp32BitBang800KbpsInvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeed400Kbps, NeoEspPinsetInverted> NeoEsp32BitBang400KbpsInvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeed400Kbps, NeoEspPinsetInverted> NeoEsp32BitBang400KbpsInvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedApa106, NeoEspPinsetInverted> NeoEsp32BitBangApa106InvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedApa106, NeoEspPinsetInverted> NeoEsp32BitBangApa106InvertedMethod;
@ -395,6 +332,7 @@ typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedWs2811, NeoEspPinset> NeoEsp82
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedWs2812x, NeoEspPinset> NeoEsp8266BitBangWs2812xMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedWs2812x, NeoEspPinset> NeoEsp8266BitBangWs2812xMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedSk6812, NeoEspPinset> NeoEsp8266BitBangSk6812Method; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedSk6812, NeoEspPinset> NeoEsp8266BitBangSk6812Method;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedTm1814, NeoEspPinsetInverted> NeoEsp8266BitBangTm1814Method; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedTm1814, NeoEspPinsetInverted> NeoEsp8266BitBangTm1814Method;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedTm1829, NeoEspPinsetInverted> NeoEsp8266BitBangTm1829Method;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeed800Kbps, NeoEspPinset> NeoEsp8266BitBang800KbpsMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeed800Kbps, NeoEspPinset> NeoEsp8266BitBang800KbpsMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeed400Kbps, NeoEspPinset> NeoEsp8266BitBang400KbpsMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeed400Kbps, NeoEspPinset> NeoEsp8266BitBang400KbpsMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedApa106, NeoEspPinset> NeoEsp8266BitBangApa106Method; typedef NeoEspBitBangMethodBase<NeoEspBitBangSpeedApa106, NeoEspPinset> NeoEsp8266BitBangApa106Method;
@ -407,6 +345,7 @@ typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedWs2811, NeoEspPinsetIn
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedWs2812x, NeoEspPinsetInverted> NeoEsp8266BitBangWs2812xInvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedWs2812x, NeoEspPinsetInverted> NeoEsp8266BitBangWs2812xInvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedSk6812, NeoEspPinsetInverted> NeoEsp8266BitBangSk6812InvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedSk6812, NeoEspPinsetInverted> NeoEsp8266BitBangSk6812InvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedTm1814, NeoEspPinset> NeoEsp8266BitBangTm1814InvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedTm1814, NeoEspPinset> NeoEsp8266BitBangTm1814InvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedTm1829, NeoEspPinset> NeoEsp8266BitBangTm1829InvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeed800Kbps, NeoEspPinsetInverted> NeoEsp8266BitBang800KbpsInvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeed800Kbps, NeoEspPinsetInverted> NeoEsp8266BitBang800KbpsInvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeed400Kbps, NeoEspPinsetInverted> NeoEsp8266BitBang400KbpsInvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeed400Kbps, NeoEspPinsetInverted> NeoEsp8266BitBang400KbpsInvertedMethod;
typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedApa106, NeoEspPinsetInverted> NeoEsp8266BitBangApa106InvertedMethod; typedef NeoEspBitBangMethodBase<NeoEspBitBangInvertedSpeedApa106, NeoEspPinsetInverted> NeoEsp8266BitBangApa106InvertedMethod;

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@ -976,6 +976,7 @@ BERRY_API int be_pcall(bvm *vm, int argc)
return be_protectedcall(vm, f, argc); return be_protectedcall(vm, f, argc);
} }
__attribute__((noreturn))
BERRY_API void be_raise(bvm *vm, const char *except, const char *msg) BERRY_API void be_raise(bvm *vm, const char *except, const char *msg)
{ {
be_pushstring(vm, except); be_pushstring(vm, except);
@ -987,6 +988,9 @@ BERRY_API void be_raise(bvm *vm, const char *except, const char *msg)
be_pop(vm, 2); be_pop(vm, 2);
be_save_stacktrace(vm); be_save_stacktrace(vm);
be_throw(vm, BE_EXCEPTION); be_throw(vm, BE_EXCEPTION);
#ifdef __GNUC__
__builtin_unreachable();
#endif
} }
BERRY_API void be_stop_iteration(bvm *vm) BERRY_API void be_stop_iteration(bvm *vm)

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@ -401,6 +401,7 @@ BERRY_API int be_pcall(bvm *vm, int argc);
BERRY_API void be_exit(bvm *vm, int status); BERRY_API void be_exit(bvm *vm, int status);
/* exception APIs */ /* exception APIs */
__attribute__((noreturn))
BERRY_API void be_raise(bvm *vm, const char *except, const char *msg); BERRY_API void be_raise(bvm *vm, const char *except, const char *msg);
BERRY_API int be_getexcept(bvm *vm, int code); BERRY_API int be_getexcept(bvm *vm, int code);
BERRY_API void be_dumpvalue(bvm *vm, int index); BERRY_API void be_dumpvalue(bvm *vm, int index);

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@ -12,6 +12,7 @@ extern int l_getoption(bvm *vm);
extern int l_millis(bvm *vm); extern int l_millis(bvm *vm);
extern int l_timereached(bvm *vm); extern int l_timereached(bvm *vm);
extern int l_yield(bvm *vm); extern int l_yield(bvm *vm);
extern int l_delay(bvm *vm);
extern int l_respCmnd(bvm *vm); extern int l_respCmnd(bvm *vm);
extern int l_respCmndStr(bvm *vm); extern int l_respCmndStr(bvm *vm);
@ -20,6 +21,8 @@ extern int l_respCmndError(bvm *vm);
extern int l_respCmndFailed(bvm *vm); extern int l_respCmndFailed(bvm *vm);
extern int l_resolveCmnd(bvm *vm); extern int l_resolveCmnd(bvm *vm);
extern int l_getlight(bvm *vm);
// #if !BE_USE_PRECOMPILED_OBJECT // #if !BE_USE_PRECOMPILED_OBJECT
#if 1 // TODO we will do pre-compiled later #if 1 // TODO we will do pre-compiled later
@ -31,6 +34,7 @@ be_native_module_attr_table(tasmota_ntv) {
be_native_module_function("millis", l_millis), be_native_module_function("millis", l_millis),
be_native_module_function("timereached", l_timereached), be_native_module_function("timereached", l_timereached),
be_native_module_function("yield", l_yield), be_native_module_function("yield", l_yield),
be_native_module_function("delay", l_delay),
be_native_module_function("respcmnd", l_respCmnd), be_native_module_function("respcmnd", l_respCmnd),
be_native_module_function("respcmndstr", l_respCmndStr), be_native_module_function("respcmndstr", l_respCmndStr),
@ -39,6 +43,8 @@ be_native_module_attr_table(tasmota_ntv) {
be_native_module_function("respcmnd_failed", l_respCmndFailed), be_native_module_function("respcmnd_failed", l_respCmndFailed),
be_native_module_function("resolvecmnd", l_resolveCmnd), be_native_module_function("resolvecmnd", l_resolveCmnd),
be_native_module_function("getlight", l_getlight),
be_native_module_str("_operators", "=<>!|"), be_native_module_str("_operators", "=<>!|"),
}; };

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@ -14,18 +14,23 @@ extern int b_wire_available(bvm *vm);
extern int b_wire_write(bvm *vm); extern int b_wire_write(bvm *vm);
extern int b_wire_read(bvm *vm); extern int b_wire_read(bvm *vm);
extern int b_wire_scan(bvm *vm);
extern int b_wire_validwrite(bvm *vm);
extern int b_wire_validread(bvm *vm); extern int b_wire_validread(bvm *vm);
// #if !BE_USE_PRECOMPILED_OBJECT // #if !BE_USE_PRECOMPILED_OBJECT
#if 1 // TODO we will do pre-compiled later #if 1 // TODO we will do pre-compiled later
be_native_module_attr_table(wire) { be_native_module_attr_table(wire) {
be_native_module_function("begintransmission", b_wire_begintransmission), be_native_module_function("_begintransmission", b_wire_begintransmission),
be_native_module_function("endtransmission", b_wire_endtransmission), be_native_module_function("_endtransmission", b_wire_endtransmission),
be_native_module_function("requestfrom", b_wire_requestfrom), be_native_module_function("_requestfrom", b_wire_requestfrom),
be_native_module_function("available", b_wire_available), be_native_module_function("_available", b_wire_available),
be_native_module_function("write", b_wire_write), be_native_module_function("_write", b_wire_write),
be_native_module_function("read", b_wire_read), be_native_module_function("_read", b_wire_read),
be_native_module_function("validread", b_wire_validread), be_native_module_function("scan", b_wire_scan),
be_native_module_function("write", b_wire_validwrite),
be_native_module_function("read", b_wire_validread),
}; };
be_define_native_module(wire, NULL); be_define_native_module(wire, NULL);

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@ -1099,9 +1099,11 @@ void Every250mSeconds(void)
} }
} }
#endif // ESP8266 #endif // ESP8266
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_UPLOAD "%s"), TasmotaGlobal.mqtt_data); char version[50];
snprintf_P(version, sizeof(version), PSTR("%s-%s"), TasmotaGlobal.image_name, TasmotaGlobal.version);
AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_UPLOAD "%s %s"), TasmotaGlobal.mqtt_data, version);
WiFiClient OTAclient; WiFiClient OTAclient;
ota_result = (HTTP_UPDATE_FAILED != ESPhttpUpdate.update(OTAclient, TasmotaGlobal.mqtt_data)); ota_result = (HTTP_UPDATE_FAILED != ESPhttpUpdate.update(OTAclient, TasmotaGlobal.mqtt_data, version));
if (!ota_result) { if (!ota_result) {
#ifndef FIRMWARE_MINIMAL #ifndef FIRMWARE_MINIMAL
int ota_error = ESPhttpUpdate.getLastError(); int ota_error = ESPhttpUpdate.getLastError();

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@ -23,6 +23,7 @@
#include <berry.h> #include <berry.h>
#include <Wire.h> #include <Wire.h>
const char kTypeError[] PROGMEM = "type_error";
/*********************************************************************************************\ /*********************************************************************************************\
* Native functions mapped to Berry functions * Native functions mapped to Berry functions
* *
@ -58,7 +59,7 @@ extern "C" {
be_return(vm); // Return be_return(vm); // Return
} }
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
// Berry: `tasmota.cmd(command:string) -> string` // Berry: `tasmota.cmd(command:string) -> string`
@ -72,7 +73,7 @@ extern "C" {
be_pushstring(vm, TasmotaGlobal.mqtt_data); be_pushstring(vm, TasmotaGlobal.mqtt_data);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
// Berry: tasmota.millis([delay:int]) -> int // Berry: tasmota.millis([delay:int]) -> int
@ -89,7 +90,7 @@ extern "C" {
be_pushint(vm, ret_millis); be_pushint(vm, ret_millis);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
// Berry: tasmota.getoption(index:int) -> int // Berry: tasmota.getoption(index:int) -> int
@ -102,7 +103,7 @@ extern "C" {
be_pushint(vm, opt); be_pushint(vm, opt);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
// Berry: tasmota.timereached(timer:int) -> bool // Berry: tasmota.timereached(timer:int) -> bool
@ -116,7 +117,20 @@ extern "C" {
be_pushbool(vm, reached); be_pushbool(vm, reached);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
}
// Berry: tasmota.delay(timer:int) -> nil
//
int32_t l_delay(struct bvm *vm);
int32_t l_delay(struct bvm *vm) {
int32_t top = be_top(vm); // Get the number of arguments
if (top == 1 && be_isint(vm, 1)) { // only 1 argument of type string accepted
uint32_t timer = be_toint(vm, 1);
delay(timer);
be_return_nil(vm); // Return
}
be_raise(vm, kTypeError, nullptr);
} }
// Berry: `yield() -> nil` // Berry: `yield() -> nil`
@ -137,7 +151,7 @@ extern "C" {
be_pushint(vm, ret); be_pushint(vm, ret);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
int32_t l_respCmnd(bvm *vm); int32_t l_respCmnd(bvm *vm);
@ -146,9 +160,10 @@ extern "C" {
if (top == 1) { if (top == 1) {
const char *msg = be_tostring(vm, 1); const char *msg = be_tostring(vm, 1);
Response_P("%s", msg); Response_P("%s", msg);
}
be_return_nil(vm); // Return nil when something goes wrong be_return_nil(vm); // Return nil when something goes wrong
} }
be_raise(vm, kTypeError, nullptr);
}
int32_t l_respCmndStr(bvm *vm); int32_t l_respCmndStr(bvm *vm);
int32_t l_respCmndStr(bvm *vm) { int32_t l_respCmndStr(bvm *vm) {
@ -156,9 +171,10 @@ extern "C" {
if (top == 1) { if (top == 1) {
const char *msg = be_tostring(vm, 1); const char *msg = be_tostring(vm, 1);
ResponseCmndChar(msg); ResponseCmndChar(msg);
}
be_return_nil(vm); // Return nil when something goes wrong be_return_nil(vm); // Return nil when something goes wrong
} }
be_raise(vm, kTypeError, nullptr);
}
int32_t l_respCmndDone(bvm *vm); int32_t l_respCmndDone(bvm *vm);
int32_t l_respCmndDone(bvm *vm) { int32_t l_respCmndDone(bvm *vm) {
@ -185,9 +201,139 @@ extern "C" {
if (top == 1 && be_isstring(vm, 1)) { if (top == 1 && be_isstring(vm, 1)) {
const char *msg = be_tostring(vm, 1); const char *msg = be_tostring(vm, 1);
strlcpy(XdrvMailbox.command, msg, CMDSZ); strlcpy(XdrvMailbox.command, msg, CMDSZ);
}
be_return_nil(vm); // Return nil when something goes wrong be_return_nil(vm); // Return nil when something goes wrong
} }
be_raise(vm, kTypeError, nullptr);
}
static void map_insert_int(bvm *vm, const char *key, int value)
{
be_pushstring(vm, key);
be_pushint(vm, value);
be_data_insert(vm, -3);
be_pop(vm, 2);
}
static void map_insert_bool(bvm *vm, const char *key, bool value)
{
be_pushstring(vm, key);
be_pushbool(vm, value);
be_data_insert(vm, -3);
be_pop(vm, 2);
}
static void map_insert_str(bvm *vm, const char *key, const char *value)
{
be_pushstring(vm, key);
be_pushstring(vm, value);
be_data_insert(vm, -3);
be_pop(vm, 2);
}
// get light
int32_t l_getlight(bvm *vm);
int32_t l_getlight(bvm *vm) {
int32_t top = be_top(vm); // Get the number of arguments
if (top == 0 || (top == 1 && be_isint(vm, 1))) {
int32_t light_num = 0;
if (top > 0) {
light_num = be_toint(vm, 1);
}
bool data_present = false; // do we have relevant data
be_newobject(vm, "map");
// check if the light exist
// TasmotaGlobal.devices_present
// Light.device
// Light.subtype
// Light.pwm_multi_channels
// light_controller.isCTRGBLinked()
if (Light.device > 0) {
// we have a light
uint8_t channels[LST_MAX];
uint8_t channelsb[LST_MAX];
char rgbcw[12] = {0};
char rgbcwb[12] = {0};
light_state.getChannelsRaw(channels);
light_state.getChannels(channelsb);
// map_insert_int(vm, "_devices_present", TasmotaGlobal.devices_present);
// map_insert_int(vm, "_light_device", Light.device);
// map_insert_int(vm, "_light_subtype", Light.subtype);
// map_insert_int(vm, "_light_multi", Light.pwm_multi_channels);
// map_insert_int(vm, "_light_linked", light_controller.isCTRGBLinked());
if (!Light.pwm_multi_channels) {
uint32_t subtype = Light.subtype; // virtual sub-type, for SO37 128
uint32_t chanidx = 0; // channel offset, for SO37 128
if (light_controller.isCTRGBLinked() && (light_num == 0)) {
data_present = true; // valid combination
}
if (!light_controller.isCTRGBLinked()) {
if (light_num == 0) {
data_present = true; // valid combination
if (subtype > LST_RGB) { subtype = LST_RGB; } // limit to RGB
}
if ((light_num == 1) && subtype > LST_RGB) {
data_present = true; // valid combination
subtype = subtype - LST_RGB;
chanidx = 3; // skip first 3 channels
}
}
if (data_present) {
// see ResponseLightState()
map_insert_bool(vm, "power", (bool)(Light.power & 1));
map_insert_int(vm, "bri", light_state.getBri());
if (subtype >= LST_RGB) {
uint16_t hue;
uint8_t sat, bri;
light_state.getHSB(&hue, &sat, &bri);
map_insert_int(vm, "hue", hue);
map_insert_int(vm, "sat", sat);
}
if ((LST_COLDWARM == subtype) || (LST_RGBW <= subtype)) {
map_insert_int(vm, "ct", light_state.getCT());
}
if (subtype > LST_NONE) {
for (uint32_t i=0; i < subtype; i++) {
snprintf_P(rgbcw, sizeof(rgbcw), PSTR("%s%02X"), rgbcw, channels[i+chanidx]);
snprintf_P(rgbcwb, sizeof(rgbcwb), PSTR("%s%02X"), rgbcwb, channelsb[i+chanidx]);
}
map_insert_str(vm, "channels", rgbcw);
map_insert_str(vm, "channelsb", rgbcwb);
// map_insert_bool(vm, "gamma", Settings.light_correction);
}
}
} else { // Light.pwm_multi_channels
if ((light_num >= 0) && (light_num < LST_MAX)) {
data_present = true;
map_insert_bool(vm, "power", Light.power & (1 << light_num));
map_insert_int(vm, "bri", Light.current_color[light_num]);
snprintf_P(rgbcw, sizeof(rgbcw), PSTR("%02X"), channels[light_num]);
snprintf_P(rgbcwb, sizeof(rgbcwb), PSTR("%02X"), channelsb[light_num]);
map_insert_str(vm, "channels", rgbcw);
map_insert_str(vm, "channelsb", rgbcwb);
}
}
be_pop(vm, 1);
if (data_present) {
be_return(vm); // Return
} else {
be_return_nil(vm); // no data, return nil instead of empty map
}
} else {
be_return_nil(vm);
}
}
be_raise(vm, kTypeError, nullptr);
}
} }
/*********************************************************************************************\ /*********************************************************************************************\
@ -208,7 +354,7 @@ extern "C" {
Wire.beginTransmission(address); Wire.beginTransmission(address);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
// Berry: `endtransmission([stop:bool]) -> nil` // Berry: `endtransmission([stop:bool]) -> nil`
@ -224,7 +370,7 @@ extern "C" {
be_pushint(vm, ret); be_pushint(vm, ret);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
// Berry: `requestfrom(address:int, quantity:int [stop:bool = true]) -> nil` // Berry: `requestfrom(address:int, quantity:int [stop:bool = true]) -> nil`
@ -242,7 +388,7 @@ extern "C" {
Wire.requestFrom((uint16_t)address, (uint8_t)quantity, stop); Wire.requestFrom((uint16_t)address, (uint8_t)quantity, stop);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
// Berry: `available() -> bool` // Berry: `available() -> bool`
@ -254,14 +400,14 @@ extern "C" {
be_pushint(vm, available); be_pushint(vm, available);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
// Berry: `write(value:int | s:string) -> nil` // Berry: `write(value:int | s:string) -> nil`
int32_t b_wire_write(struct bvm *vm); int32_t b_wire_write(struct bvm *vm);
int32_t b_wire_write(struct bvm *vm) { int32_t b_wire_write(struct bvm *vm) {
int32_t top = be_top(vm); // Get the number of arguments int32_t top = be_top(vm); // Get the number of arguments
if (top == 1 && (be_isint(vm, 1) || be_isint(vm, 1))) { if (top == 1 && (be_isint(vm, 1) || be_isstring(vm, 1))) {
if (be_isint(vm, 1)) { if (be_isint(vm, 1)) {
int32_t value = be_toint(vm, 1); int32_t value = be_toint(vm, 1);
Wire.write(value); Wire.write(value);
@ -273,7 +419,7 @@ extern "C" {
} }
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
// Berry: `read() -> int` // Berry: `read() -> int`
@ -285,7 +431,43 @@ extern "C" {
be_pushint(vm, value); be_pushint(vm, value);
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
}
int32_t b_wire_scan(struct bvm *vm);
int32_t b_wire_scan(struct bvm *vm) {
int32_t top = be_top(vm); // Get the number of arguments
if (top == 0) {
be_newobject(vm, "list");
for (uint8_t address = 1; address <= 127; address++) {
Wire.beginTransmission(address);
int32_t error = Wire.endTransmission();
if (0 == error) {
be_pushint(vm, address);
be_data_push(vm, -2);
be_pop(vm, 1);
}
}
be_pop(vm, 1);
be_return(vm); // Return
}
be_raise(vm, kTypeError, nullptr);
}
// Berry: `validwrite(address:int, reg:int, val:int, size:int) -> bool or nil`
int32_t b_wire_validwrite(struct bvm *vm);
int32_t b_wire_validwrite(struct bvm *vm) {
int32_t top = be_top(vm); // Get the number of arguments
if (top == 4 && be_isint(vm, 1) && be_isint(vm, 2) && be_isint(vm, 3) && be_isint(vm, 4)) {
uint8_t addr = be_toint(vm, 1);
uint8_t reg = be_toint(vm, 2);
uint8_t val = be_toint(vm, 3);
uint8_t size = be_toint(vm, 4);
bool ok = I2cWrite(addr, reg, val, size);
be_pushbool(vm, ok);
be_return(vm); // Return
}
be_raise(vm, kTypeError, nullptr);
} }
// Berry: `validread(address:int, reg:int, size:int) -> int or nil` // Berry: `validread(address:int, reg:int, size:int) -> int or nil`
@ -304,7 +486,7 @@ extern "C" {
} }
be_return(vm); // Return be_return(vm); // Return
} }
be_return_nil(vm); // Return nil when something goes wrong be_raise(vm, kTypeError, nullptr);
} }
} }

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@ -45,6 +45,7 @@ const char berry_prog[] =
// Again, this will be eventually pre-compiled // Again, this will be eventually pre-compiled
"var getfreeheap, publish, cmd, getoption, millis, timereached, yield " "var getfreeheap, publish, cmd, getoption, millis, timereached, yield "
"var respcmnd, respcmndstr, respcmnd_done, respcmnd_error, respcmnd_failed, resolvecmnd " "var respcmnd, respcmndstr, respcmnd_done, respcmnd_error, respcmnd_failed, resolvecmnd "
"var getlight "
"def init_ntv() " "def init_ntv() "
"import tasmota_ntv " "import tasmota_ntv "
"self.getfreeheap = tasmota_ntv.getfreeheap " "self.getfreeheap = tasmota_ntv.getfreeheap "
@ -62,6 +63,8 @@ const char berry_prog[] =
"self.respcmnd_error = tasmota_ntv.respcmnd_error " "self.respcmnd_error = tasmota_ntv.respcmnd_error "
"self.respcmnd_failed = tasmota_ntv.respcmnd_failed " "self.respcmnd_failed = tasmota_ntv.respcmnd_failed "
"self.resolvecmnd = tasmota_ntv.resolvecmnd " "self.resolvecmnd = tasmota_ntv.resolvecmnd "
"self.getlight = tasmota_ntv.getlight "
"end " "end "
"def init() " "def init() "

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@ -304,11 +304,15 @@ void CmndBrRun(void) {
// AddLog(LOG_LEVEL_INFO, "run: type(2)=%s", be_typename(berry.vm, 2)); // AddLog(LOG_LEVEL_INFO, "run: type(2)=%s", be_typename(berry.vm, 2));
// code taken from REPL, look first at top, and if nil, look at return value // code taken from REPL, look first at top, and if nil, look at return value
if (!be_isnil(berry.vm, 1)) {
ret_val = be_tostring(berry.vm, 1); ret_val = be_tostring(berry.vm, 1);
Response_P("{\"" D_PRFX_BR "\":\"%s\"}", ret_val); // can't use XdrvMailbox.command as it may have been overwritten by subcommand } else {
ret_val = be_tostring(berry.vm, 2);
}
Response_P("{\"" D_PRFX_BR "\":\"%s\"}", EscapeJSONString(ret_val).c_str()); // can't use XdrvMailbox.command as it may have been overwritten by subcommand
be_pop(berry.vm, 1); be_pop(berry.vm, 1);
} else { } else {
Response_P(PSTR("{\"" D_PRFX_BR "\":\"[%s] %s\"}"), be_tostring(berry.vm, -2), be_tostring(berry.vm, -1)); Response_P(PSTR("{\"" D_PRFX_BR "\":\"[%s] %s\"}"), EscapeJSONString(be_tostring(berry.vm, -2)).c_str(), EscapeJSONString(be_tostring(berry.vm, -1)).c_str());
be_pop(berry.vm, 2); be_pop(berry.vm, 2);
} }