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Merge pull request #6704 from andrethomas/arduino_slave 

Add support for Arduno Uno/Mini/Nano on Serial
This commit is contained in:
Theo Arends 2019-10-20 20:48:02 +02:00 committed by GitHub
parent 7ff3e22ae7 1d5920d1c8
commit cf5d9dd1a4
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GPG Key ID: 4AEE18F83AFDEB23
33 changed files with 622 additions and 1 deletions
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3
lib/ArduinoHexParse/README.md Normal file
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@ -0,0 +1,3 @@
# ArduinoHexParse
Parse hex files created by Arduino for Uno/Mini/Nano

25
lib/ArduinoHexParse/keywords.txt Normal file
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@ -0,0 +1,25 @@
#######################################
# Syntax Coloring Map for ArduinoHexParse
# (esp8266)
#######################################
#######################################
# Datatypes (KEYWORD1)
#######################################
ArduinoHexParse KEYWORD1
#######################################
# Methods and Functions (KEYWORD2)
#######################################
ArduinoHexParse KEYWORD2
ParseLine KEYWORD2
GetFlashPage KEYWORD2
GetLoadAddress KEYWORD2
IsFlashPageReady KEYWORD2
#######################################
# Constants (LITERAL1)
#######################################

12
lib/ArduinoHexParse/library.json Normal file
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@ -0,0 +1,12 @@
{
"name": "ArduinoHexParse",
"version": "0.0.1",
"description": "Parse hex files created by Arduino for Uno/Mini/Nano",
"repository":
{
"type": "git",
"url": "https://github.com/arendst/Sonoff-Tasmota/lib/ArduinoHexParse"
},
"frameworks": "arduino",
"platforms": "espressif8266"
}

9
lib/ArduinoHexParse/library.properties Normal file
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@ -0,0 +1,9 @@
name=ArduinoHexParse
version=0.0.1
author=Andre Thomas
maintainer=Andre Thomas <andre1024@gmail.com>
sentence=Parse hex files created by Arduino for Uno/Mini/Nano
paragraph=
category=Signal Input/Output
url=
architectures=esp8266

134
lib/ArduinoHexParse/src/ArduinoHexParse.cpp Normal file
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@ -0,0 +1,134 @@
/*
Copyright (C) 2019 Andre Thomas and Theo Arends
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/>.
*/
#include <Arduino.h>
#include "ArduinoHexParse.h"
ArduinoHexParse::ArduinoHexParse(void)
{
loadAddress[0] = 0;
loadAddress[1] = 0;
}
void ArduinoHexParse::ParseLine(byte* hexline)
{
recordType = GetRecordType(hexline);
if (0 == recordType) {
address = GetAddress(hexline);
len = GetLength(hexline);
GetData(hexline, len);
if (128 == PageMemIdx) {
if (!firstRun) {
loadAddress[1] += 0x40;
if (0 == loadAddress[1]) {
loadAddress[0] += 1;
}
}
firstRun = false;
FlashPageReady = true;
PageMemIdx = 0;
}
nextAddress = address + len;
}
if (1 == recordType) {
EndOfFile();
FlashPageReady = true;
}
}
bool ArduinoHexParse::IsFlashPageReady(void)
{
return FlashPageReady;
}
byte* ArduinoHexParse::GetFlashPage(void)
{
FlashPageReady = false;
return FlashPage;
}
byte* ArduinoHexParse::GetLoadAddress(void)
{
return loadAddress;
}
void ArduinoHexParse::GetLoadAddress(byte* hexline)
{
char buff[3];
buff[2] = '\0';
buff[0] = hexline[3];
buff[1] = hexline[4];
loadAddress[0] = strtol(buff, 0, 16);
buff[0] = hexline[5];
buff[1] = hexline[6];
loadAddress[1] = strtol(buff, 0, 16);
}
byte* ArduinoHexParse::GetData(byte* hexline, uint32_t len)
{
uint32_t start = 9;
uint32_t end = (len * 2) + start;
char buff[3];
buff[2] = '\0';
for (uint32_t x = start; x < end; x = x+2) {
buff[0] = hexline[x];
buff[1] = hexline[x+1];
FlashPage[PageMemIdx] = strtol(buff, 0, 16);
PageMemIdx++;
}
}
void ArduinoHexParse::EndOfFile(void)
{
loadAddress[1] += 0x40;
if (0 == loadAddress[1]) {
loadAddress[0] += 1;
}
while (128 > PageMemIdx) { // Fill the remaing space in the memory page with 0xFF
FlashPage[PageMemIdx] = 0xFF;
PageMemIdx++;
}
}
uint32_t ArduinoHexParse::GetAddress(byte* hexline)
{
char buff[5];
buff[0] = hexline[3];
buff[1] = hexline[4];
buff[2] = hexline[5];
buff[3] = hexline[6];
buff[4] = '\0';
return strtol(buff, 0, 16);
}
uint16_t ArduinoHexParse::GetLength(byte* hexline)
{
char buff[3];
buff[0] = hexline[1];
buff[1] = hexline[2];
buff[2] = '\0';
return strtol(buff, 0, 16);
}
uint16_t ArduinoHexParse::GetRecordType(byte* hexline)
{
char buff[3];
buff[0] = hexline[7];
buff[1] = hexline[8];
buff[2] = '\0';
return strtol(buff, 0, 16);
}

47
lib/ArduinoHexParse/src/ArduinoHexParse.h Normal file
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@ -0,0 +1,47 @@
/*
Copyright (C) 2019 Andre Thomas and Theo Arends
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/>.
*/
#ifndef __ARDUINOHEXPARSE_H__
#include <Arduino.h>
class ArduinoHexParse {
public:
ArduinoHexParse(void);
void ParseLine(byte* data);
byte* GetFlashPage(void);
byte* GetLoadAddress(void);
bool IsFlashPageReady(void);
private:
uint32_t address = 0;
uint32_t len = 0;
uint32_t nextAddress = 0;
uint32_t PageMemIdx = 0;
uint32_t recordType = 0;
byte FlashPage[128];
byte loadAddress[2];
bool FlashPageReady = false;
bool firstRun = true;
uint32_t GetAddress(byte* hexline);
uint16_t GetLength(byte* hexline);
uint16_t GetRecordType(byte* hexline);
byte* GetData(byte* hexline, uint32_t len);
void GetLoadAddress(byte* hexline);
void EndOfFile(void);
};
#endif // __ARDUINOHEXPARSE_H__

1
sonoff/_changelog.ino
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@ -4,6 +4,7 @@
* Add absolute PowerDelta using command PowerDelta 101..32000 where 101 = 101-100 = 1W, 202 = 202-100 = 102W (#5901)
* Add support for EX-Store WiFi Dimmer V4 (#5856)
* Add ZigbeeRead command and many improvements (#6095)
* Add ArduinoSlave driver (EXPERIMENTAL)
*
* 6.6.0.19 20191018
* Replace obsolete xsns_23_sdm120 with xnrg_08_sdm120 and consolidate define USE_SDM120

3
sonoff/language/bg-BG.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/cs-CZ.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/de-DE.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/el-GR.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/en-GB.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/es-ES.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/fr-FR.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/he-HE.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/hu-HU.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/it-IT.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/ko-KO.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/nl-NL.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/pl-PL.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/pt-BR.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/pt-PT.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/ru-RU.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "А"

3
sonoff/language/sk-SK.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/sv-SE.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/tr-TR.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "A"

3
sonoff/language/uk-UK.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "А"

3
sonoff/language/zh-CN.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "安"

3
sonoff/language/zh-TW.h
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@ -627,6 +627,9 @@
#define D_SENSOR_SM2135_DAT "SM2135 Dat"
#define D_SENSOR_DEEPSLEEP "DeepSleep"
#define D_SENSOR_EXS_ENABLE "EXS Enable"
#define D_SENSOR_ARDUINO_TX "Arduino TX"
#define D_SENSOR_ARDUINO_RX "Arduino RX"
#define D_SENSOR_ARDUINO_RESET "Arduino RST"
// Units
#define D_UNIT_AMPERE "安"

5
sonoff/my_user_config.h
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@ -541,6 +541,11 @@
//#define USE_HRE // Add support for Badger HR-E Water Meter (+1k4 code)
//#define USE_A4988_STEPPER // Add support for A4988/DRV8825 stepper-motor-driver-circuit (+10k5 code)
//#define USE_ARDUINO_SLAVE // Add support for Arduino Uno/Pro Mini via serial interface including flashing (+2k3 code, 44 mem)
// #define USE_ARDUINO_FLASH_SPEED 57600 // Usually 57600 for 3.3V variants and 115200 for 5V variants
// #define USE_ARDUINO_SERIAL_SPEED 57600 // Depends on the sketch that is running on the Uno/Pro Mini
// #define USE_ARDUINO_INVERT_RESET
// -- End of general directives -------------------
/*********************************************************************************************\

9
sonoff/sonoff_template.h
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@ -208,6 +208,9 @@ enum UserSelectablePins {
GPIO_SM2135_DAT, // SM2135 Dat
GPIO_DEEPSLEEP, // Kill switch for deepsleep
GPIO_EXS_ENABLE, // EXS MCU Enable
GPIO_ARDUINO_TXD, // Arduino Slave TX
GPIO_ARDUINO_RXD, // Arduino Slave RX
GPIO_ARDUINO_RESET, // Arduino Reset Pin
GPIO_SENSOR_END };
// Programmer selectable GPIO functionality
@ -286,6 +289,7 @@ const char kSensorNames[] PROGMEM =
D_SENSOR_DDSU666_TX "|" D_SENSOR_DDSU666_RX "|"
D_SENSOR_SM2135_CLK "|" D_SENSOR_SM2135_DAT "|"
D_SENSOR_DEEPSLEEP "|" D_SENSOR_EXS_ENABLE "|"
D_SENSOR_ARDUINO_TX "|" D_SENSOR_ARDUINO_RX "|" D_SENSOR_ARDUINO_RESET "|"
;
const char kSensorNamesFixed[] PROGMEM =
@ -698,6 +702,11 @@ const uint8_t kGpioNiceList[] PROGMEM = {
GPIO_PN532_TXD, // PN532 HSU Tx
GPIO_PN532_RXD, // PN532 HSU Rx
#endif
#ifdef USE_ARDUINO_SLAVE
GPIO_ARDUINO_TXD, // Arduino Slave TX
GPIO_ARDUINO_RXD, // Arduino Slave RX
GPIO_ARDUINO_RESET, // Arduino Reset Pin
#endif
#ifdef USE_RDM6300
GPIO_RDM6300_RX,
#endif

35
sonoff/xdrv_01_webserver.ino
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@ -44,7 +44,7 @@ const uint16_t HTTP_REFRESH_TIME = 2345; // milliseconds
uint8_t *efm8bb1_update = nullptr;
#endif // USE_RF_FLASH
enum UploadTypes { UPL_TASMOTA, UPL_SETTINGS, UPL_EFM8BB1 };
enum UploadTypes { UPL_TASMOTA, UPL_SETTINGS, UPL_EFM8BB1, UPL_ARDUINOSLAVE };
static const char * HEADER_KEYS[] = { "User-Agent", };
@ -2037,12 +2037,25 @@ void HandleUploadDone(void)
WSContentSend_P(PSTR("%06x'>" D_SUCCESSFUL "</font></b><br>"), WebColor(COL_TEXT_SUCCESS));
WSContentSend_P(HTTP_MSG_RSTRT);
ShowWebSource(SRC_WEBGUI);
#ifdef USE_ARDUINO_SLAVE
if (ArduinoSlave_GetFlagFlashing()) {
restart_flag = 0;
} else { // It was a normal firmware file, or we are ready to restart device
restart_flag = 2;
}
#else
restart_flag = 2; // Always restart to re-enable disabled features during update
#endif
}
SettingsBufferFree();
WSContentSend_P(PSTR("</div><br>"));
WSContentSpaceButton(BUTTON_MAIN);
WSContentStop();
#ifdef USE_ARDUINO_SLAVE
if (ArduinoSlave_GetFlagFlashing()) {
ArduinoSlave_Flash();
}
#endif
}
void HandleUploadLoop(void)
@ -2108,6 +2121,14 @@ void HandleUploadLoop(void)
if (Web.upload_error != 0) { return; }
} else
#endif // USE_RF_FLASH
#ifdef USE_ARDUINO_SLAVE
if ((WEMOS == my_module_type) && (upload.buf[0] == ':')) { // Check if this is a ARDUINO SLAVE hex file
Update.end(); // End esp8266 update session
Web.upload_file_type = UPL_ARDUINOSLAVE;
Web.upload_error = ArduinoSlave_UpdateInit();
if (Web.upload_error != 0) { return; }
} else
#endif
{
if (upload.buf[0] != 0xE9) {
Web.upload_error = 3; // Magic byte is not 0xE9
@ -2166,6 +2187,11 @@ void HandleUploadLoop(void)
}
}
#endif // USE_RF_FLASH
#ifdef USE_ARDUINO_SLAVE
else if (UPL_ARDUINOSLAVE == Web.upload_file_type) {
ArduinoSlave_WriteBuffer(upload.buf, upload.currentSize);
}
#endif
else { // firmware
if (!Web.upload_error && (Update.write(upload.buf, upload.currentSize) != upload.currentSize)) {
Web.upload_error = 5; // Upload buffer miscompare
@ -2217,6 +2243,13 @@ void HandleUploadLoop(void)
Web.upload_file_type = UPL_TASMOTA;
}
#endif // USE_RF_FLASH
#ifdef USE_ARDUINO_SLAVE
else if (UPL_ARDUINOSLAVE == Web.upload_file_type) {
// Done writing the hex to SPI flash
ArduinoSlave_SetFlagFlashing(true); // So we know on upload success page if it needs to flash hex or do a normal restart
Web.upload_file_type = UPL_TASMOTA;
}
#endif
else {
if (!Update.end(true)) { // true to set the size to the current progress
if (_serialoutput) { Update.printError(Serial); }

277
sonoff/xdrv_31_arduino_slave.ino Normal file
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@ -0,0 +1,277 @@
/*
xdrv_31_arduino_slave.ino - Support for Arduino Slave on Serial
Copyright (C) 2019 Andre Thomas and Theo Arends
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_ARDUINO_SLAVE
#include <TasmotaSerial.h>
#include <ArduinoHexParse.h>
#define CONST_STK_CRC_EOP 0x20
#define CMND_STK_GET_SYNC 0x30
#define CMND_STK_SET_DEVICE 0x42
#define CMND_STK_SET_DEVICE_EXT 0x45
#define CMND_STK_ENTER_PROGMODE 0x50
#define CMND_STK_LEAVE_PROGMODE 0x51
#define CMND_STK_LOAD_ADDRESS 0x55
#define CMND_STK_PROG_PAGE 0x64
uint32_t as_spi_hex_size = 0;
uint8_t as_spi_sector_start = 0x96;
uint8_t as_spi_sector_counter = 0x96;
uint8_t as_spi_sector_cursor = 0;
bool as_flashing = false;
uint8_t as_type = 0;
TasmotaSerial *ArduinoSlave_Serial;
#define XDRV_31 31
uint8_t ArduinoSlave_UpdateInit(void)
{
as_spi_hex_size = 0;
as_spi_sector_counter = as_spi_sector_start; // Reset the pre-defined write address where firmware will temporarily be stored
as_spi_sector_cursor = 0;
return 0;
}
void ArduinoSlave_Reset(void)
{
if (as_type) {
#ifdef USE_ARDUINO_INVERT_RESET
digitalWrite(pin[GPIO_ARDUINO_RESET], LOW);
delay(1);
digitalWrite(pin[GPIO_ARDUINO_RESET], HIGH);
delay(1);
digitalWrite(pin[GPIO_ARDUINO_RESET], LOW);
delay(5);
#else
digitalWrite(pin[GPIO_ARDUINO_RESET], HIGH);
delay(1);
digitalWrite(pin[GPIO_ARDUINO_RESET], LOW);
delay(1);
digitalWrite(pin[GPIO_ARDUINO_RESET], HIGH);
delay(5);
#endif
}
}
uint8_t ArduinoSlave_waitForSerialData(int dataCount, int timeout) {
int timer = 0;
while (timer < timeout) {
if (ArduinoSlave_Serial->available() >= dataCount) {
return 1;
}
delay(1);
timer++;
}
return 0;
}
byte ArduinoSlave_sendBytes(byte* bytes, int count) {
ArduinoSlave_Serial->write(bytes, count);
ArduinoSlave_waitForSerialData(2, 1000);
byte sync = ArduinoSlave_Serial->read();
byte ok = ArduinoSlave_Serial->read();
if (sync == 0x14 && ok == 0x10) {
return 1;
}
return 0;
}
byte ArduinoSlave_execCmd(byte cmd) {
byte bytes[] = { cmd, CONST_STK_CRC_EOP };
return ArduinoSlave_sendBytes(bytes, 2);
}
byte ArduinoSlave_execParam(byte cmd, byte* params, int count) {
byte bytes[32];
bytes[0] = cmd;
int i = 0;
while (i < count) {
bytes[i + 1] = params[i];
i++;
}
bytes[i + 1] = CONST_STK_CRC_EOP;
return ArduinoSlave_sendBytes(bytes, i + 2);
}
uint8_t ArduinoSlave_exitProgMode(void)
{
return ArduinoSlave_execCmd(CMND_STK_LEAVE_PROGMODE); // Exit programming mode
}
void ArduinoSlave_SetupFlash(void)
{
byte ProgParams[] = {0x86,0x00,0x00,0x01,0x01,0x01,0x01,0x03,0xff,0xff,0xff,0xff,0x00,0x80,0x04,0x00,0x00,0x00,0x80,0x00};
byte ExtProgParams[] = {0x05,0x04,0xd7,0xc2,0x00};
ArduinoSlave_Serial->begin(USE_ARDUINO_FLASH_SPEED);
if (ArduinoSlave_Serial->hardwareSerial()) {
ClaimSerial();
}
ArduinoSlave_Reset();
ArduinoSlave_execCmd(CMND_STK_GET_SYNC);
ArduinoSlave_execParam(CMND_STK_SET_DEVICE, ProgParams, sizeof(ProgParams)); // Set programming parameters
ArduinoSlave_execParam(CMND_STK_SET_DEVICE_EXT, ExtProgParams, sizeof(ExtProgParams)); // Set extended programming parameters
ArduinoSlave_execCmd(CMND_STK_ENTER_PROGMODE); // Enter programming mode
}
uint8_t ArduinoSlave_loadAddress(byte adrHi, byte adrLo) {
byte params[] = { adrHi, adrLo };
return ArduinoSlave_execParam(CMND_STK_LOAD_ADDRESS, params, sizeof(params));
}
void ArduinoSlave_FlashPage(byte* address, byte* data)
{
byte Header[] = {CMND_STK_PROG_PAGE, 0x00, 0x80, 0x46};
ArduinoSlave_loadAddress(address[1], address[0]);
ArduinoSlave_Serial->write(Header, 4);
for (int i = 0; i < 128; i++) {
ArduinoSlave_Serial->write(data[i]);
}
ArduinoSlave_Serial->write(CONST_STK_CRC_EOP);
ArduinoSlave_waitForSerialData(2, 1000);
ArduinoSlave_Serial->read();
ArduinoSlave_Serial->read();
}
void ArduinoSlave_Flash(void)
{
bool reading = true;
uint32_t read = 0;
uint32_t processed = 0;
char thishexline[50];
uint8_t position = 0;
char* flash_buffer;
ArduinoHexParse hexParse = ArduinoHexParse();
ArduinoSlave_SetupFlash();
flash_buffer = new char[SPI_FLASH_SEC_SIZE];
while (reading) {
ESP.flashRead(0x96000 + read, (uint32_t*)flash_buffer, FLASH_SECTOR_SIZE);
read = read + FLASH_SECTOR_SIZE;
if (read >= as_spi_hex_size) {
reading = false;
}
for (uint16_t ca=0; ca<FLASH_SECTOR_SIZE; ca++) {
processed++;
if (processed <= as_spi_hex_size) {
if (':' == flash_buffer[ca]) {
position = 0;
}
if (0x0D == flash_buffer[ca]) {
thishexline[position] = 0;
hexParse.ParseLine((byte*)thishexline);
if (hexParse.IsFlashPageReady()) {
byte* page = hexParse.GetFlashPage();
byte* address = hexParse.GetLoadAddress();
ArduinoSlave_FlashPage(address, page);
}
} else {
if (0x0A != flash_buffer[ca]) {
thishexline[position] = flash_buffer[ca];
position++;
}
}
}
}
}
as_flashing = false;
ArduinoSlave_exitProgMode();
restart_flag = 2;
}
void ArduinoSlave_SetFlagFlashing(bool value)
{
as_flashing = value;
}
bool ArduinoSlave_GetFlagFlashing(void)
{
return as_flashing;
}
void ArduinoSlave_WriteBuffer(uint8_t *buf, size_t size)
{
if (0 == as_spi_sector_cursor) { // Starting a new sector write so we need to erase it first
ESP.flashEraseSector(as_spi_sector_counter);
}
as_spi_sector_cursor++;
ESP.flashWrite((as_spi_sector_counter * 0x1000)+((as_spi_sector_cursor-1)*2048), (uint32_t*)buf, size);
as_spi_hex_size = as_spi_hex_size + size;
if (2 == as_spi_sector_cursor) { // The web upload sends 2048 bytes at a time so keep track of the cursor position to reset it for the next flash sector erase
as_spi_sector_cursor = 0;
as_spi_sector_counter++;
}
}
void ArduinoSlave_Init(void)
{
if (as_type) {
return;
}
if ((pin[GPIO_ARDUINO_RXD] < 99) && (pin[GPIO_ARDUINO_TXD] < 99) && (pin[GPIO_ARDUINO_RESET] < 99)) {
ArduinoSlave_Serial = new TasmotaSerial(pin[GPIO_ARDUINO_RXD], pin[GPIO_ARDUINO_TXD], 1, 0, 200);
if (ArduinoSlave_Serial->begin(USE_ARDUINO_SERIAL_SPEED)) {
if (ArduinoSlave_Serial->hardwareSerial()) {
ClaimSerial();
}
pinMode(pin[GPIO_ARDUINO_RESET], OUTPUT);
as_type = 1;
ArduinoSlave_Reset();
AddLog_P2(LOG_LEVEL_INFO, PSTR("Arduino Slave Enabled"));
}
}
}
void ArduinoSlave_Show(bool json)
{
if (as_type) {
char buffer[100];
ArduinoSlave_Serial->flush();
ArduinoSlave_Serial->print("JSON");
ArduinoSlave_Serial->find(char(0xFE));
uint16_t haveread = ArduinoSlave_Serial->readBytesUntil(char(0xFF), buffer, sizeof(buffer)-1);
buffer[haveread] = '\0';
if (json) {
ResponseAppend_P(PSTR(",\"ArduinoSlave\":%s"), buffer);
}
}
}
bool Xdrv31(uint8_t function)
{
bool result = false;
switch (function) {
case FUNC_EVERY_SECOND:
ArduinoSlave_Init();
break;
case FUNC_JSON_APPEND:
ArduinoSlave_Show(1);
break;
case FUNC_COMMAND_DRIVER:
break;
default:
break;
}
}
#endif // USE_ARDUINO_SLAVE