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// ***************************************************************************
// Somfy module for ESP8266 with NodeMCU
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//
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// Written by Lukas Voborsky, @voborsky
// based on https://github.com/Nickduino/Somfy_Remote
// Somfy protocol description: https://pushstack.wordpress.com/somfy-rts-protocol/
// and discussion: https://forum.arduino.cc/index.php?topic=208346.0
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//
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// MIT license, http://opensource.org/licenses/MIT
// ***************************************************************************
//#define NODE_DEBUG
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# include <stdint.h>
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# include "os_type.h"
# include "osapi.h"
# include "sections.h"
# include "module.h"
# include "lauxlib.h"
# include "lmem.h"
# include "platform.h"
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# include "task/task.h"
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# include "hw_timer.h"
# include "user_interface.h"
# define SYMBOL 640 // symbol width in microseconds
# define SOMFY_UP 0x2
# define SOMFY_STOP 0x1
# define SOMFY_DOWN 0x4
# define SOMFY_PROG 0x8
# define DIRECT_WRITE_LOW(pin) (GPIO_OUTPUT_SET(GPIO_ID_PIN(pin_num[pin]), 0))
# define DIRECT_WRITE_HIGH(pin) (GPIO_OUTPUT_SET(GPIO_ID_PIN(pin_num[pin]), 1))
static const os_param_t TIMER_OWNER = 0x736f6d66 ; // "somf"
static task_handle_t done_taskid ;
static uint8_t pin ;
static uint8_t frame [ 7 ] ;
static uint8_t sync ;
static uint8_t repeat ;
//static uint32_t delay[10] = {9415, 89565, 4*SYMBOL, 4*SYMBOL, 4*SYMBOL, 4550, SYMBOL, SYMBOL, SYMBOL, 30415}; // in us
// the `delay` array of constants must be in RAM as it is accessed from the timer interrupt
static const RAM_CONST_SECTION_ATTR uint32_t delay [ 10 ] = { US_TO_RTC_TIMER_TICKS ( 9415 ) , US_TO_RTC_TIMER_TICKS ( 89565 ) , US_TO_RTC_TIMER_TICKS ( 4 * SYMBOL ) , US_TO_RTC_TIMER_TICKS ( 4 * SYMBOL ) , US_TO_RTC_TIMER_TICKS ( 4 * SYMBOL ) , US_TO_RTC_TIMER_TICKS ( 4550 ) , US_TO_RTC_TIMER_TICKS ( SYMBOL ) , US_TO_RTC_TIMER_TICKS ( SYMBOL ) , US_TO_RTC_TIMER_TICKS ( SYMBOL ) , US_TO_RTC_TIMER_TICKS ( 30415 ) } ; // in ticks (no need to recalculate)
static uint8_t repeatindex ;
static uint8_t signalindex ;
static uint8_t subindex ;
static uint8_t bitcondition ;
int lua_done_ref ; // callback when transmission is done
void buildFrame ( uint8_t * frame , uint64_t remote , uint8_t button , uint16_t code ) {
// NODE_DBG("remote: %x\n", remote);
// NODE_DBG("button: %x\n", button);
// NODE_DBG("rolling code: %x\n", code);
frame [ 0 ] = 0xA7 ; // Encryption key. Doesn't matter much
frame [ 1 ] = button < < 4 ; // Which button did you press? The 4 LSB will be the checksum
frame [ 2 ] = code > > 8 ; // Rolling code (big endian)
frame [ 3 ] = code ; // Rolling code
frame [ 4 ] = remote > > 16 ; // Remote address
frame [ 5 ] = remote > > 8 ; // Remote address
frame [ 6 ] = remote ; // Remote address
// frame[7] = 0x80;
// frame[8] = 0x0;
// frame[9] = 0x0;
// NODE_DBG("Frame:\t\t\t%02x %02x %02x %02x %02x %02x %02x\n", frame[0], frame[1], frame[2], frame[3], frame[4], frame[5], frame[6]);
// Checksum calculation: a XOR of all the nibbles
uint8_t checksum = 0 ;
for ( uint8_t i = 0 ; i < 7 ; i + + ) {
checksum = checksum ^ frame [ i ] ^ ( frame [ i ] > > 4 ) ;
}
checksum & = 0 b1111 ; // We keep the last 4 bits only
//Checksum integration
frame [ 1 ] | = checksum ; // If a XOR of all the nibbles is equal to 0, the blinds will consider the checksum ok.
// NODE_DBG("With checksum:\t%02x %02x %02x %02x %02x %02x %02x\n", frame[0], frame[1], frame[2], frame[3], frame[4], frame[5], frame[6]);
// Obfuscation: a XOR of all the uint8_ts
for ( uint8_t i = 1 ; i < 7 ; i + + ) {
frame [ i ] ^ = frame [ i - 1 ] ;
}
// NODE_DBG("Obfuscated:\t\t%02x %02x %02x %02x %02x %02x %02x\n", frame[0], frame[1], frame[2], frame[3], frame[4], frame[5], frame[6]);
}
static void somfy_transmissionDone ( task_param_t arg )
{
lua_State * L = lua_getstate ( ) ;
lua_rawgeti ( L , LUA_REGISTRYINDEX , lua_done_ref ) ;
luaL_unref ( L , LUA_REGISTRYINDEX , lua_done_ref ) ;
lua_done_ref = LUA_NOREF ;
lua_call ( L , 0 , 0 ) ;
}
static void ICACHE_RAM_ATTR sendCommand ( os_param_t p ) {
( void ) p ;
// NODE_DBG("%d\t%d\n", signalindex, subindex);
switch ( signalindex ) {
case 0 :
subindex = 0 ;
if ( sync = = 2 ) { // Only with the first frame.
//Wake-up pulse & Silence
DIRECT_WRITE_HIGH ( pin ) ;
signalindex + + ;
// delayMicroseconds(9415);
break ;
} else {
signalindex + + ; signalindex + + ; //no break means: go directly to step 3
}
case 1 :
//Wake-up pulse & Silence
DIRECT_WRITE_LOW ( pin ) ;
signalindex + + ;
// delayMicroseconds(89565);
break ;
case 2 :
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signalindex + + ;
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// no break means go directly to step 3
// a "useless" step to allow repeating the hardware sync w/o the silence after wake-up pulse
case 3 :
// Hardware sync: two sync for the first frame, seven for the following ones.
DIRECT_WRITE_HIGH ( pin ) ;
signalindex + + ;
// delayMicroseconds(4*SYMBOL);
break ;
case 4 :
DIRECT_WRITE_LOW ( pin ) ;
subindex + + ;
if ( subindex < sync ) { signalindex - - ; } else { signalindex + + ; }
// delayMicroseconds(4*SYMBOL);
break ;
case 5 :
// Software sync
DIRECT_WRITE_HIGH ( pin ) ;
signalindex + + ;
// delayMicroseconds(4550);
break ;
case 6 :
DIRECT_WRITE_LOW ( pin ) ;
signalindex + + ;
subindex = 0 ;
// delayMicroseconds(SYMBOL);
break ;
case 7 :
//Data: bits are sent one by one, starting with the MSB.
bitcondition = ( ( frame [ subindex / 8 ] > > ( 7 - ( subindex % 8 ) ) ) & 1 ) = = 1 ;
if ( bitcondition ) {
DIRECT_WRITE_LOW ( pin ) ;
}
else {
DIRECT_WRITE_HIGH ( pin ) ;
}
signalindex + + ;
// delayMicroseconds(SYMBOL);
break ;
case 8 :
//Data: bits are sent one by one, starting with the MSB.
if ( bitcondition ) {
DIRECT_WRITE_HIGH ( pin ) ;
}
else {
DIRECT_WRITE_LOW ( pin ) ;
}
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if ( subindex < 56 ) {
subindex + + ;
signalindex - - ;
}
else {
signalindex + + ;
}
// delayMicroseconds(SYMBOL);
break ;
case 9 :
DIRECT_WRITE_LOW ( pin ) ;
signalindex + + ;
// delayMicroseconds(30415); // Inter-frame silence
break ;
case 10 :
repeatindex + + ;
if ( repeatindex < repeat ) {
DIRECT_WRITE_HIGH ( pin ) ; //start repeat from step 3, but don't wait as after step 1
signalindex = 4 ; subindex = 0 ; sync = 7 ;
} else {
platform_hw_timer_close ( TIMER_OWNER ) ;
if ( lua_done_ref ! = LUA_NOREF ) {
task_post_low ( done_taskid , ( task_param_t ) 0 ) ;
}
}
break ;
}
if ( signalindex < 10 ) {
platform_hw_timer_arm_ticks ( TIMER_OWNER , delay [ signalindex - 1 ] ) ;
}
}
static int somfy_lua_sendcommand ( lua_State * L ) { // pin, remote, command, rolling_code, num_repeat, callback
if ( ! lua_isnumber ( L , 4 ) ) {
return luaL_error ( L , " wrong arg range " ) ;
}
pin = luaL_checkinteger ( L , 1 ) ;
uint64_t remote = luaL_checkinteger ( L , 2 ) ;
uint8_t cmd = luaL_checkinteger ( L , 3 ) ;
uint16_t code = luaL_checkinteger ( L , 4 ) ;
repeat = luaL_optint ( L , 5 , 2 ) ;
luaL_argcheck ( L , platform_gpio_exists ( pin ) , 1 , " Invalid pin " ) ;
luaL_unref ( L , LUA_REGISTRYINDEX , lua_done_ref ) ;
if ( ! lua_isnoneornil ( L , 6 ) ) {
lua_pushvalue ( L , 6 ) ;
lua_done_ref = luaL_ref ( L , LUA_REGISTRYINDEX ) ;
} else {
lua_done_ref = LUA_NOREF ;
}
MOD_CHECK_ID ( gpio , pin ) ;
platform_gpio_mode ( pin , PLATFORM_GPIO_OUTPUT , PLATFORM_GPIO_PULLUP ) ;
buildFrame ( frame , remote , cmd , code ) ;
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if ( ! platform_hw_timer_init ( TIMER_OWNER , FRC1_SOURCE , TRUE ) ) {
// Failed to init the timer
luaL_error ( L , " Unable to initialize timer " ) ;
}
platform_hw_timer_set_func ( TIMER_OWNER , sendCommand , 0 ) ;
sync = 2 ;
signalindex = 0 ; repeatindex = 0 ;
sendCommand ( 0 ) ;
return 0 ;
}
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LROT_BEGIN ( somfy )
LROT_NUMENTRY ( UP , SOMFY_UP )
LROT_NUMENTRY ( DOWN , SOMFY_DOWN )
LROT_NUMENTRY ( PROG , SOMFY_PROG )
LROT_NUMENTRY ( STOP , SOMFY_STOP )
LROT_FUNCENTRY ( sendcommand , somfy_lua_sendcommand )
LROT_END ( somfy , NULL , 0 )
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int luaopen_somfy ( lua_State * L ) {
done_taskid = task_get_id ( ( task_callback_t ) somfy_transmissionDone ) ;
return 0 ;
}
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NODEMCU_MODULE ( SOMFY , " somfy " , somfy , luaopen_somfy ) ;