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/*
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support . ino - support for Tasmota
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Copyright ( C ) 2021 Theo Arends
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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/>.
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*/
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extern " C " {
extern struct rst_info resetInfo ;
}
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/*********************************************************************************************\
* Watchdog extension ( https : //github.com/esp8266/Arduino/issues/1532)
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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# include <Ticker.h>
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Ticker tickerOSWatch ;
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const uint32_t OSWATCH_RESET_TIME = 120 ;
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static unsigned long oswatch_last_loop_time ;
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uint8_t oswatch_blocked_loop = 0 ;
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# ifndef USE_WS2812_DMA // Collides with Neopixelbus but solves exception
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//void OsWatchTicker() IRAM_ATTR;
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# endif // USE_WS2812_DMA
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# ifdef USE_KNX
bool knx_started = false ;
# endif // USE_KNX
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void OsWatchTicker ( void )
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{
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uint32_t t = millis ( ) ;
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uint32_t last_run = t - oswatch_last_loop_time ;
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# ifdef DEBUG_THEO
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int32_t rssi = WiFi . RSSI ( ) ;
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( D_LOG_APPLICATION D_OSWATCH " FreeRam %d, rssi %d %% (%d dBm), last_run %d " ) , ESP_getFreeHeap ( ) , WifiGetRssiAsQuality ( rssi ) , rssi , last_run ) ;
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# endif // DEBUG_THEO
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if ( last_run > = ( OSWATCH_RESET_TIME * 1000 ) ) {
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// AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_APPLICATION D_OSWATCH " " D_BLOCKED_LOOP ". " D_RESTARTING)); // Save iram space
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RtcSettings . oswatch_blocked_loop = 1 ;
RtcSettingsSave ( ) ;
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// ESP.restart(); // normal reboot
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// ESP.reset(); // hard reset
// Force an exception to get a stackdump
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// ESP32: Guru Meditation Error: Core 0 panic'ed (LoadProhibited). Exception was unhandled.
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volatile uint32_t dummy ;
dummy = * ( ( uint32_t * ) 0x00000000 ) ;
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( void ) dummy ; // avoid compiler warning
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}
}
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void OsWatchInit ( void )
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{
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oswatch_blocked_loop = RtcSettings . oswatch_blocked_loop ;
RtcSettings . oswatch_blocked_loop = 0 ;
oswatch_last_loop_time = millis ( ) ;
tickerOSWatch . attach_ms ( ( ( OSWATCH_RESET_TIME / 3 ) * 1000 ) , OsWatchTicker ) ;
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}
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void OsWatchLoop ( void )
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{
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oswatch_last_loop_time = millis ( ) ;
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// while(1) delay(1000); // this will trigger the os watch
}
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bool OsWatchBlockedLoop ( void )
{
return oswatch_blocked_loop ;
}
uint32_t ResetReason ( void )
{
/*
user_interface . h
REASON_DEFAULT_RST = 0 , // "Power on" normal startup by power on
REASON_WDT_RST = 1 , // "Hardware Watchdog" hardware watch dog reset
REASON_EXCEPTION_RST = 2 , // "Exception" exception reset, GPIO status won’ t change
REASON_SOFT_WDT_RST = 3 , // "Software Watchdog" software watch dog reset, GPIO status won’ t change
REASON_SOFT_RESTART = 4 , // "Software/System restart" software restart ,system_restart , GPIO status won’ t change
REASON_DEEP_SLEEP_AWAKE = 5 , // "Deep-Sleep Wake" wake up from deep-sleep
REASON_EXT_SYS_RST = 6 // "External System" external system reset
*/
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return ESP_ResetInfoReason ( ) ;
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}
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String GetResetReason ( void )
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{
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if ( oswatch_blocked_loop ) {
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char buff [ 32 ] ;
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strncpy_P ( buff , PSTR ( D_JSON_BLOCKED_LOOP ) , sizeof ( buff ) ) ;
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return String ( buff ) ;
} else {
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return ESP_getResetReason ( ) ;
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}
}
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# ifdef ESP32
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/*********************************************************************************************\
* ESP32 AutoMutex
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
//////////////////////////////////////////
// automutex.
// create a mute in your driver with:
// void *mutex = nullptr;
//
// then protect any function with
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// TasAutoMutex m(&mutex, "somename");
// - mutex is automatically initialised if not already intialised.
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// - it will be automagically released when the function is over.
// - the same thread can take multiple times (recursive).
// - advanced options m.give() and m.take() allow you fine control within a function.
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// - if take=false at creat, it will not be initially taken.
// - name is used in serial log of mutex deadlock.
// - maxWait in ticks is how long it will wait before failing in a deadlock scenario (and then emitting on serial)
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class TasAutoMutex {
SemaphoreHandle_t mutex ;
bool taken ;
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int maxWait ;
const char * name ;
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public :
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TasAutoMutex ( SemaphoreHandle_t * mutex , const char * name = " " , int maxWait = 40 , bool take = true ) ;
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~ TasAutoMutex ( ) ;
void give ( ) ;
void take ( ) ;
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static void init ( SemaphoreHandle_t * ptr ) ;
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} ;
//////////////////////////////////////////
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TasAutoMutex : : TasAutoMutex ( SemaphoreHandle_t * mutex , const char * name , int maxWait , bool take ) {
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if ( mutex ) {
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if ( ! ( * mutex ) ) {
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TasAutoMutex : : init ( mutex ) ;
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}
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this - > mutex = * mutex ;
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this - > maxWait = maxWait ;
this - > name = name ;
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if ( take ) {
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this - > taken = xSemaphoreTakeRecursive ( this - > mutex , this - > maxWait ) ;
if ( ! this - > taken ) {
Serial . printf ( " \r \n Mutexfail %s \r \n " , this - > name ) ;
}
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}
} else {
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this - > mutex = ( SemaphoreHandle_t ) nullptr ;
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}
}
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TasAutoMutex : : ~ TasAutoMutex ( ) {
if ( this - > mutex ) {
if ( this - > taken ) {
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xSemaphoreGiveRecursive ( this - > mutex ) ;
this - > taken = false ;
}
}
}
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void TasAutoMutex : : init ( SemaphoreHandle_t * ptr ) {
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SemaphoreHandle_t mutex = xSemaphoreCreateRecursiveMutex ( ) ;
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( * ptr ) = mutex ;
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// needed, else for ESP8266 as we will initialis more than once in logging
// (*ptr) = (void *) 1;
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}
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void TasAutoMutex : : give ( ) {
if ( this - > mutex ) {
if ( this - > taken ) {
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xSemaphoreGiveRecursive ( this - > mutex ) ;
this - > taken = false ;
}
}
}
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void TasAutoMutex : : take ( ) {
if ( this - > mutex ) {
if ( ! this - > taken ) {
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this - > taken = xSemaphoreTakeRecursive ( this - > mutex , this - > maxWait ) ;
if ( ! this - > taken ) {
Serial . printf ( " \r \n Mutexfail %s \r \n " , this - > name ) ;
}
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}
}
}
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# endif // ESP32
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/*********************************************************************************************\
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* Miscellaneous
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\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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/*
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String GetBinary ( const void * ptr , size_t count ) {
uint32_t value = * ( uint32_t * ) ptr ;
value < < = ( 32 - count ) ;
String result ;
result . reserve ( count + 1 ) ;
for ( uint32_t i = 0 ; i < count ; i + + ) {
result + = ( value & 0x80000000 ) ? ' 1 ' : ' 0 ' ;
value < < = 1 ;
}
return result ;
}
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*/
String GetBinary8 ( uint8_t value , size_t count ) {
if ( count > 8 ) { count = 8 ; }
value < < = ( 8 - count ) ;
String result ;
result . reserve ( count + 1 ) ;
for ( uint32_t i = 0 ; i < count ; i + + ) {
result + = ( value & 0x80 ) ? ' 1 ' : ' 0 ' ;
value < < = 1 ;
}
return result ;
}
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// Get span until single character in string
size_t strchrspn ( const char * str1 , int character )
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{
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size_t ret = 0 ;
char * start = ( char * ) str1 ;
char * end = strchr ( str1 , character ) ;
if ( end ) ret = end - start ;
return ret ;
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}
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uint32_t ChrCount ( const char * str , const char * delim ) {
uint32_t count = 0 ;
char * read = ( char * ) str ;
char ch = ' . ' ;
while ( ch ! = ' \0 ' ) {
ch = * read + + ;
if ( ch = = * delim ) { count + + ; }
}
return count ;
}
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uint32_t ArgC ( void ) {
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return ( XdrvMailbox . data_len > 0 ) ? ChrCount ( XdrvMailbox . data , " , " ) + 1 : 0 ;
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}
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// Function to return a substring defined by a delimiter at an index
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char * subStr ( char * dest , char * str , const char * delim , int index ) {
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char * write = dest ;
char * read = str ;
char ch = ' . ' ;
while ( index & & ( ch ! = ' \0 ' ) ) {
ch = * read + + ;
if ( strchr ( delim , ch ) ) {
index - - ;
if ( index ) { write = dest ; }
} else {
* write + + = ch ;
}
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}
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* write = ' \0 ' ;
dest = Trim ( dest ) ;
return dest ;
}
char * ArgV ( char * dest , int index ) {
return subStr ( dest , XdrvMailbox . data , " , " , index ) ;
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}
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uint32_t ArgVul ( uint32_t * args , uint32_t count ) {
uint32_t argc = ArgC ( ) ;
if ( argc > count ) { argc = count ; }
count = argc ;
if ( argc ) {
char argument [ XdrvMailbox . data_len ] ;
for ( uint32_t i = 0 ; i < argc ; i + + ) {
if ( strlen ( ArgV ( argument , i + 1 ) ) ) {
args [ i ] = strtoul ( argument , nullptr , 0 ) ;
} else {
count - - ;
}
}
}
return count ;
}
uint32_t ParseParameters ( uint32_t count , uint32_t * params ) {
// Destroys XdrvMailbox.data
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char * p ;
uint32_t i = 0 ;
for ( char * str = strtok_r ( XdrvMailbox . data , " , " , & p ) ; str & & i < count ; str = strtok_r ( nullptr , " , " , & p ) , i + + ) {
params [ i ] = strtoul ( str , nullptr , 0 ) ;
}
return i ;
}
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float CharToFloat ( const char * str )
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{
// simple ascii to double, because atof or strtod are too large
char strbuf [ 24 ] ;
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strlcpy ( strbuf , str , sizeof ( strbuf ) ) ;
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char * pt = strbuf ;
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if ( * pt = = ' \0 ' ) { return 0.0 ; }
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while ( ( * pt ! = ' \0 ' ) & & isspace ( * pt ) ) { pt + + ; } // Trim leading spaces
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signed char sign = 1 ;
if ( * pt = = ' - ' ) { sign = - 1 ; }
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if ( * pt = = ' - ' | | * pt = = ' + ' ) { pt + + ; } // Skip any sign
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float left = 0 ;
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if ( * pt ! = ' . ' ) {
left = atoi ( pt ) ; // Get left part
while ( isdigit ( * pt ) ) { pt + + ; } // Skip number
}
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float right = 0 ;
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if ( * pt = = ' . ' ) {
pt + + ;
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uint32_t max_decimals = 0 ;
while ( ( max_decimals < 8 ) & & isdigit ( pt [ max_decimals ] ) ) { max_decimals + + ; }
pt [ max_decimals ] = ' \0 ' ; // Limit decimals to float max of 8
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right = atoi ( pt ) ; // Decimal part
while ( isdigit ( * pt ) ) {
pt + + ;
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right / = 10.0f ;
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}
}
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float result = left + right ;
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if ( sign < 0 ) {
return - result ; // Add negative sign
}
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return result ;
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}
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int TextToInt ( char * str )
{
char * p ;
uint8_t radix = 10 ;
if ( ' # ' = = str [ 0 ] ) {
radix = 16 ;
str + + ;
}
return strtol ( str , & p , radix ) ;
}
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char * dtostrfd ( double number , unsigned char prec , char * s )
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{
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if ( ( isnan ( number ) ) | | ( isinf ( number ) ) ) { // Fix for JSON output (https://stackoverflow.com/questions/1423081/json-left-out-infinity-and-nan-json-status-in-ecmascript)
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strcpy_P ( s , PSTR ( " null " ) ) ;
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return s ;
} else {
return dtostrf ( number , 1 , prec , s ) ;
}
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}
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char * Unescape ( char * buffer , uint32_t * size )
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{
uint8_t * read = ( uint8_t * ) buffer ;
uint8_t * write = ( uint8_t * ) buffer ;
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int32_t start_size = * size ;
int32_t end_size = * size ;
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uint8_t che = 0 ;
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// AddLogBuffer(LOG_LEVEL_DEBUG, (uint8_t*)buffer, *size);
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while ( start_size > 0 ) {
uint8_t ch = * read + + ;
start_size - - ;
if ( ch ! = ' \\ ' ) {
* write + + = ch ;
} else {
if ( start_size > 0 ) {
uint8_t chi = * read + + ;
start_size - - ;
end_size - - ;
switch ( chi ) {
case ' \\ ' : che = ' \\ ' ; break ; // 5C Backslash
case ' a ' : che = ' \a ' ; break ; // 07 Bell (Alert)
case ' b ' : che = ' \b ' ; break ; // 08 Backspace
case ' e ' : che = ' \e ' ; break ; // 1B Escape
case ' f ' : che = ' \f ' ; break ; // 0C Formfeed
case ' n ' : che = ' \n ' ; break ; // 0A Linefeed (Newline)
case ' r ' : che = ' \r ' ; break ; // 0D Carriage return
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case ' s ' : che = ' ' ; break ; // 20 Space
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case ' t ' : che = ' \t ' ; break ; // 09 Horizontal tab
case ' v ' : che = ' \v ' ; break ; // 0B Vertical tab
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case ' x ' : {
uint8_t * start = read ;
che = ( uint8_t ) strtol ( ( const char * ) read , ( char * * ) & read , 16 ) ;
start_size - = ( uint16_t ) ( read - start ) ;
end_size - = ( uint16_t ) ( read - start ) ;
break ;
}
case ' " ' : che = ' \" ' ; break ; // 22 Quotation mark
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// case '?': che = '\?'; break; // 3F Question mark
default : {
che = chi ;
* write + + = ch ;
end_size + + ;
}
}
* write + + = che ;
}
}
}
* size = end_size ;
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* write + + = 0 ; // add the end string pointer reference
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// AddLogBuffer(LOG_LEVEL_DEBUG, (uint8_t*)buffer, *size);
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return buffer ;
}
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char * RemoveSpace ( char * p ) {
// Remove white-space character (' ','\t','\n','\v','\f','\r')
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char * write = p ;
char * read = p ;
char ch = ' . ' ;
while ( ch ! = ' \0 ' ) {
ch = * read + + ;
if ( ! isspace ( ch ) ) {
* write + + = ch ;
}
}
return p ;
}
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char * RemoveControlCharacter ( char * p ) {
// Remove control character (0x00 .. 0x1F and 0x7F)
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char * write = p ;
char * read = p ;
char ch = ' . ' ;
while ( ch ! = ' \0 ' ) {
ch = * read + + ;
if ( ! iscntrl ( ch ) ) {
* write + + = ch ;
}
}
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* write + + = ' \0 ' ;
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return p ;
}
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char * ReplaceChar ( char * p , char find , char replace ) {
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char * write = ( char * ) p ;
char * read = ( char * ) p ;
char ch = ' . ' ;
while ( ch ! = ' \0 ' ) {
ch = * read + + ;
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if ( ch = = find ) {
ch = replace ;
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}
* write + + = ch ;
}
return p ;
}
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char * ReplaceCommaWithDot ( char * p ) {
return ReplaceChar ( p , ' , ' , ' . ' ) ;
}
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char * LowerCase ( char * dest , const char * source )
{
char * write = dest ;
const char * read = source ;
char ch = ' . ' ;
while ( ch ! = ' \0 ' ) {
ch = * read + + ;
* write + + = tolower ( ch ) ;
}
return dest ;
}
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char * UpperCase ( char * dest , const char * source )
{
char * write = dest ;
const char * read = source ;
char ch = ' . ' ;
while ( ch ! = ' \0 ' ) {
ch = * read + + ;
* write + + = toupper ( ch ) ;
}
return dest ;
}
char * UpperCase_P ( char * dest , const char * source )
{
char * write = dest ;
const char * read = source ;
char ch = ' . ' ;
while ( ch ! = ' \0 ' ) {
ch = pgm_read_byte ( read + + ) ;
* write + + = toupper ( ch ) ;
}
return dest ;
}
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bool StrCaseStr_P ( const char * source , const char * search ) {
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char case_source [ strlen_P ( source ) + 1 ] ;
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UpperCase_P ( case_source , source ) ;
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char case_search [ strlen_P ( search ) + 1 ] ;
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UpperCase_P ( case_search , search ) ;
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return ( strstr ( case_source , case_search ) ! = nullptr ) ;
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}
2021-08-14 15:28:20 +01:00
bool IsNumeric ( const char * value ) {
2021-08-16 10:44:27 +01:00
// Test for characters '-.0123456789'
2021-08-14 15:28:20 +01:00
char * digit = ( char * ) value ;
while ( isdigit ( * digit ) | | * digit = = ' . ' | | * digit = = ' - ' ) { digit + + ; }
return ( * digit = = ' \0 ' ) ;
}
2021-08-16 10:11:46 +01:00
char * Trim ( char * p ) {
// Remove leading and trailing tab, \n, \v, \f, \r and space
2020-08-04 15:33:05 +01:00
if ( * p ! = ' \0 ' ) {
2021-08-16 10:11:46 +01:00
while ( ( * p ! = ' \0 ' ) & & isspace ( * p ) ) { p + + ; } // Trim leading spaces
2020-08-04 15:33:05 +01:00
char * q = p + strlen ( p ) - 1 ;
2021-08-16 10:11:46 +01:00
while ( ( q > = p ) & & isspace ( * q ) ) { q - - ; } // Trim trailing spaces
2020-08-04 15:33:05 +01:00
q + + ;
* q = ' \0 ' ;
}
2018-05-29 16:24:42 +01:00
return p ;
}
2021-05-17 14:15:35 +01:00
String HexToString ( uint8_t * data , uint32_t length ) {
if ( ! data | | ! length ) { return " " ; }
uint32_t len = ( length < 16 ) ? length : 16 ;
char hex_data [ 32 ] ;
ToHex_P ( ( const unsigned char * ) data , len , hex_data , sizeof ( hex_data ) ) ;
String result = hex_data ;
result + = F ( " [ " ) ;
for ( uint32_t i = 0 ; i < len ; i + + ) {
result + = ( isprint ( data [ i ] ) ) ? ( char ) data [ i ] : ' ' ;
}
result + = F ( " ] " ) ;
if ( length > len ) {
result + = F ( " ... " ) ;
}
return result ;
}
2021-01-11 13:50:43 +00:00
String UrlEncode ( const String & text ) {
const char hex [ ] = " 0123456789ABCDEF " ;
String encoded = " " ;
int len = text . length ( ) ;
int i = 0 ;
while ( i < len ) {
char decodedChar = text . charAt ( i + + ) ;
/*
if ( ( ' a ' < = decodedChar & & decodedChar < = ' z ' ) | |
( ' A ' < = decodedChar & & decodedChar < = ' Z ' ) | |
( ' 0 ' < = decodedChar & & decodedChar < = ' 9 ' ) | |
( ' = ' = = decodedChar ) ) {
encoded + = decodedChar ;
} else {
encoded + = ' % ' ;
encoded + = hex [ decodedChar > > 4 ] ;
encoded + = hex [ decodedChar & 0xF ] ;
}
*/
if ( ( ' ' = = decodedChar ) | | ( ' + ' = = decodedChar ) ) {
encoded + = ' % ' ;
encoded + = hex [ decodedChar > > 4 ] ;
encoded + = hex [ decodedChar & 0xF ] ;
} else {
encoded + = decodedChar ;
}
}
return encoded ;
}
2018-04-20 16:43:20 +01:00
char * NoAlNumToUnderscore ( char * dest , const char * source )
2018-04-19 20:41:59 +01:00
{
char * write = dest ;
const char * read = source ;
char ch = ' . ' ;
while ( ch ! = ' \0 ' ) {
ch = * read + + ;
2018-04-20 16:43:20 +01:00
* write + + = ( isalnum ( ch ) | | ( ' \0 ' = = ch ) ) ? ch : ' _ ' ;
2018-04-19 20:41:59 +01:00
}
return dest ;
}
2019-11-20 19:53:12 +00:00
char IndexSeparator ( void )
2019-05-17 13:23:21 +01:00
{
/*
// 20 bytes more costly !?!
const char separators [ ] = { " -_ " } ;
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return separators [ Settings - > flag3 . use_underscore ] ;
2019-05-17 13:23:21 +01:00
*/
2021-06-11 17:14:12 +01:00
if ( Settings - > flag3 . use_underscore ) { // SetOption64 - Enable "_" instead of "-" as sensor index separator
2019-05-17 13:23:21 +01:00
return ' _ ' ;
} else {
return ' - ' ;
}
}
2019-07-28 16:14:20 +01:00
void SetShortcutDefault ( void )
2018-08-27 13:53:09 +01:00
{
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if ( ' \0 ' ! = XdrvMailbox . data [ 0 ] ) { // There must be at least one character in the buffer
XdrvMailbox . data [ 0 ] = ' 0 ' + SC_DEFAULT ; // SC_CLEAR, SC_DEFAULT, SC_USER
XdrvMailbox . data [ 1 ] = ' \0 ' ;
2018-08-27 13:53:09 +01:00
}
}
2019-11-20 19:53:12 +00:00
uint8_t Shortcut ( void )
2018-08-27 12:06:22 +01:00
{
uint8_t result = 10 ;
2019-07-28 16:14:20 +01:00
if ( ' \0 ' = = XdrvMailbox . data [ 1 ] ) { // Only allow single character input for shortcut
if ( ( ' " ' = = XdrvMailbox . data [ 0 ] ) | | ( ' 0 ' = = XdrvMailbox . data [ 0 ] ) ) {
2018-08-27 13:53:09 +01:00
result = SC_CLEAR ;
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} else {
2019-07-28 16:14:20 +01:00
result = atoi ( XdrvMailbox . data ) ; // 1 = SC_DEFAULT, 2 = SC_USER
2018-08-27 12:06:22 +01:00
if ( 0 = = result ) {
result = 10 ;
}
}
}
return result ;
}
2019-03-31 16:57:28 +01:00
bool ValidIpAddress ( const char * str )
{
2021-01-18 15:32:58 +00:00
IPAddress ip_address ;
return ip_address . fromString ( str ) ;
2019-03-31 16:57:28 +01:00
}
2021-01-19 16:39:31 +00:00
bool ParseIPv4 ( uint32_t * addr , const char * str_p )
2017-03-25 16:24:11 +00:00
{
uint8_t * part = ( uint8_t * ) addr ;
2019-01-28 13:08:33 +00:00
uint8_t i ;
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char str_r [ strlen_P ( str_p ) + 1 ] ;
char * str = & str_r [ 0 ] ;
strcpy_P ( str , str_p ) ;
2017-03-25 16:24:11 +00:00
* addr = 0 ;
for ( i = 0 ; i < 4 ; i + + ) {
2019-03-26 17:26:50 +00:00
part [ i ] = strtoul ( str , nullptr , 10 ) ; // Convert byte
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str = strchr ( str , ' . ' ) ;
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if ( str = = nullptr | | * str = = ' \0 ' ) {
2017-04-25 17:24:42 +01:00
break ; // No more separators, exit
}
2017-03-25 16:24:11 +00:00
str + + ; // Point to next character after separator
}
2017-04-25 17:24:42 +01:00
return ( 3 = = i ) ;
2017-03-25 16:24:11 +00:00
}
2017-06-30 16:54:19 +01:00
// Function to parse & check if version_str is newer than our currently installed version.
2017-10-18 17:22:34 +01:00
bool NewerVersion ( char * version_str )
2017-06-30 16:54:19 +01:00
{
uint32_t version = 0 ;
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uint32_t i = 0 ;
2017-06-30 16:54:19 +01:00
char * str_ptr ;
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char version_dup [ strlen ( version_str ) + 1 ] ;
strncpy ( version_dup , version_str , sizeof ( version_dup ) ) ; // Duplicate the version_str as strtok_r will modify it.
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// Loop through the version string, splitting on '.' seperators.
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for ( char * str = strtok_r ( version_dup , " . " , & str_ptr ) ; str & & i < sizeof ( VERSION ) ; str = strtok_r ( nullptr , " . " , & str_ptr ) , i + + ) {
2017-06-30 16:54:19 +01:00
int field = atoi ( str ) ;
// The fields in a version string can only range from 0-255.
if ( ( field < 0 ) | | ( field > 255 ) ) {
return false ;
}
// Shuffle the accumulated bytes across, and add the new byte.
version = ( version < < 8 ) + field ;
// Check alpha delimiter after 1.2.3 only
if ( ( 2 = = i ) & & isalpha ( str [ strlen ( str ) - 1 ] ) ) {
field = str [ strlen ( str ) - 1 ] & 0x1f ;
version = ( version < < 8 ) + field ;
i + + ;
}
}
// A version string should have 2-4 fields. e.g. 1.2, 1.2.3, or 1.2.3a (= 1.2.3.1).
// If not, then don't consider it a valid version string.
if ( ( i < 2 ) | | ( i > sizeof ( VERSION ) ) ) {
return false ;
}
// Keep shifting the parsed version until we hit the maximum number of tokens.
// VERSION stores the major number of the version in the most significant byte of the uint32_t.
while ( i < sizeof ( VERSION ) ) {
version < < = 8 ;
i + + ;
}
// Now we should have a fully constructed version number in uint32_t form.
return ( version > VERSION ) ;
}
2019-07-28 12:54:52 +01:00
char * GetPowerDevice ( char * dest , uint32_t idx , size_t size , uint32_t option )
2017-09-02 13:37:02 +01:00
{
2018-06-28 11:25:50 +01:00
strncpy_P ( dest , S_RSLT_POWER , size ) ; // POWER
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if ( ( TasmotaGlobal . devices_present + option ) > 1 ) {
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char sidx [ 8 ] ;
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snprintf_P ( sidx , sizeof ( sidx ) , PSTR ( " %d " ) , idx ) ; // x
2018-11-22 14:41:30 +00:00
strncat ( dest , sidx , size - strlen ( dest ) - 1 ) ; // POWERx
2017-09-02 13:37:02 +01:00
}
return dest ;
}
2019-07-28 12:54:52 +01:00
char * GetPowerDevice ( char * dest , uint32_t idx , size_t size )
2017-09-02 13:37:02 +01:00
{
2017-10-18 17:22:34 +01:00
return GetPowerDevice ( dest , idx , size , 0 ) ;
2017-09-02 13:37:02 +01:00
}
2021-07-13 15:44:28 +01:00
float ConvertTempToFahrenheit ( float c ) {
2018-01-30 13:14:55 +00:00
float result = c ;
2021-06-11 17:14:12 +01:00
if ( ! isnan ( c ) & & Settings - > flag . temperature_conversion ) { // SetOption8 - Switch between Celsius or Fahrenheit
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result = c * 1.8 + 32 ; // Fahrenheit
2018-01-30 13:14:55 +00:00
}
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result = result + ( 0.1 * Settings - > temp_comp ) ;
2018-01-30 13:14:55 +00:00
return result ;
}
2021-07-13 15:44:28 +01:00
float ConvertTempToCelsius ( float c ) {
2019-04-18 10:07:38 +01:00
float result = c ;
2021-07-13 15:44:28 +01:00
if ( ! isnan ( c ) & & ! Settings - > flag . temperature_conversion ) { // SetOption8 - Switch between Celsius or Fahrenheit
result = ( c - 32 ) / 1.8 ; // Celsius
2019-04-18 10:07:38 +01:00
}
2021-06-11 17:14:12 +01:00
result = result + ( 0.1 * Settings - > temp_comp ) ;
2019-04-18 10:07:38 +01:00
return result ;
}
2021-07-13 15:44:28 +01:00
void UpdateGlobalTemperature ( float c ) {
TasmotaGlobal . global_update = TasmotaGlobal . uptime ;
TasmotaGlobal . temperature_celsius = c ;
}
float ConvertTemp ( float c ) {
UpdateGlobalTemperature ( c ) ;
return ConvertTempToFahrenheit ( c ) ;
}
2018-11-14 13:32:09 +00:00
char TempUnit ( void )
2018-01-30 13:14:55 +00:00
{
2020-05-07 23:53:13 +01:00
// SetOption8 - Switch between Celsius or Fahrenheit
2021-06-11 17:14:12 +01:00
return ( Settings - > flag . temperature_conversion ) ? D_UNIT_FAHRENHEIT [ 0 ] : D_UNIT_CELSIUS [ 0 ] ;
2018-01-30 13:14:55 +00:00
}
2019-04-15 17:12:42 +01:00
float ConvertHumidity ( float h )
{
2020-03-16 17:29:55 +00:00
float result = h ;
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TasmotaGlobal . global_update = TasmotaGlobal . uptime ;
2020-10-28 18:03:39 +00:00
TasmotaGlobal . humidity = h ;
2020-03-17 15:29:59 +00:00
2021-06-11 17:14:12 +01:00
result = result + ( 0.1 * Settings - > hum_comp ) ;
2019-04-15 17:12:42 +01:00
2020-03-16 17:29:55 +00:00
return result ;
2019-04-15 17:12:42 +01:00
}
2020-03-16 15:52:22 +00:00
float CalcTempHumToDew ( float t , float h )
{
2020-05-11 14:38:59 +01:00
if ( isnan ( h ) | | isnan ( t ) ) { return NAN ; }
2020-03-16 15:52:22 +00:00
2021-06-11 17:14:12 +01:00
if ( Settings - > flag . temperature_conversion ) { // SetOption8 - Switch between Celsius or Fahrenheit
2020-03-16 15:52:22 +00:00
t = ( t - 32 ) / 1.8 ; // Celsius
}
float gamma = TaylorLog ( h / 100 ) + 17.62 * t / ( 243.5 + t ) ;
float result = ( 243.5 * gamma / ( 17.62 - gamma ) ) ;
2021-06-11 17:14:12 +01:00
if ( Settings - > flag . temperature_conversion ) { // SetOption8 - Switch between Celsius or Fahrenheit
2020-03-16 15:52:22 +00:00
result = result * 1.8 + 32 ; // Fahrenheit
}
return result ;
}
2018-11-04 15:55:12 +00:00
float ConvertPressure ( float p )
2018-11-01 15:36:22 +00:00
{
float result = p ;
2020-10-28 16:32:07 +00:00
TasmotaGlobal . global_update = TasmotaGlobal . uptime ;
2020-10-28 18:03:39 +00:00
TasmotaGlobal . pressure_hpa = p ;
2019-04-15 17:12:42 +01:00
2021-06-11 17:14:12 +01:00
if ( ! isnan ( p ) & & Settings - > flag . pressure_conversion ) { // SetOption24 - Switch between hPa or mmHg pressure unit
2019-11-03 11:33:36 +00:00
result = p * 0.75006375541921 ; // mmHg
2018-11-01 15:36:22 +00:00
}
return result ;
}
2020-10-29 09:34:44 +00:00
float ConvertPressureForSeaLevel ( float pressure )
{
if ( pressure = = 0.0f )
return pressure ;
2021-06-11 17:14:12 +01:00
return ConvertPressure ( ( pressure / FastPrecisePow ( 1.0 - ( ( float ) Settings - > altitude / 44330.0f ) , 5.255f ) ) - 21.6f ) ;
2020-10-29 09:34:44 +00:00
}
2018-11-14 13:32:09 +00:00
String PressureUnit ( void )
2018-11-04 15:55:12 +00:00
{
2021-06-11 17:14:12 +01:00
return ( Settings - > flag . pressure_conversion ) ? String ( F ( D_UNIT_MILLIMETER_MERCURY ) ) : String ( F ( D_UNIT_PRESSURE ) ) ;
2018-11-04 15:55:12 +00:00
}
2020-03-02 14:51:33 +00:00
float ConvertSpeed ( float s )
{
// Entry in m/s
2021-06-11 17:14:12 +01:00
return s * kSpeedConversionFactor [ Settings - > flag2 . speed_conversion ] ;
2020-03-02 14:51:33 +00:00
}
String SpeedUnit ( void )
{
char speed [ 8 ] ;
2021-06-11 17:14:12 +01:00
return String ( GetTextIndexed ( speed , sizeof ( speed ) , Settings - > flag2 . speed_conversion , kSpeedUnit ) ) ;
2020-03-02 14:51:33 +00:00
}
2018-11-14 13:32:09 +00:00
void ResetGlobalValues ( void )
2018-07-24 17:41:50 +01:00
{
2020-10-28 16:32:07 +00:00
if ( ( TasmotaGlobal . uptime - TasmotaGlobal . global_update ) > GLOBAL_VALUES_VALID ) { // Reset after 5 minutes
TasmotaGlobal . global_update = 0 ;
2020-10-28 18:03:39 +00:00
TasmotaGlobal . temperature_celsius = NAN ;
TasmotaGlobal . humidity = 0.0f ;
TasmotaGlobal . pressure_hpa = 0.0f ;
2018-07-24 17:41:50 +01:00
}
}
2018-09-28 14:48:42 +01:00
uint32_t SqrtInt ( uint32_t num )
{
if ( num < = 1 ) {
return num ;
}
uint32_t x = num / 2 ;
uint32_t y ;
do {
y = ( x + num / x ) / 2 ;
if ( y > = x ) {
return x ;
}
x = y ;
} while ( true ) ;
}
uint32_t RoundSqrtInt ( uint32_t num )
{
uint32_t s = SqrtInt ( 4 * num ) ;
if ( s & 1 ) {
s + + ;
}
return s / 2 ;
}
2019-07-27 17:37:56 +01:00
char * GetTextIndexed ( char * destination , size_t destination_size , uint32_t index , const char * haystack )
2018-01-30 13:14:55 +00:00
{
// Returns empty string if not found
// Returns text of found
char * write = destination ;
const char * read = haystack ;
index + + ;
while ( index - - ) {
size_t size = destination_size - 1 ;
write = destination ;
char ch = ' . ' ;
while ( ( ch ! = ' \0 ' ) & & ( ch ! = ' | ' ) ) {
ch = pgm_read_byte ( read + + ) ;
if ( size & & ( ch ! = ' | ' ) ) {
* write + + = ch ;
size - - ;
}
}
if ( 0 = = ch ) {
if ( index ) {
write = destination ;
}
break ;
}
}
* write = ' \0 ' ;
return destination ;
}
int GetCommandCode ( char * destination , size_t destination_size , const char * needle , const char * haystack )
{
// Returns -1 of not found
// Returns index and command if found
int result = - 1 ;
const char * read = haystack ;
char * write = destination ;
while ( true ) {
result + + ;
size_t size = destination_size - 1 ;
write = destination ;
char ch = ' . ' ;
while ( ( ch ! = ' \0 ' ) & & ( ch ! = ' | ' ) ) {
ch = pgm_read_byte ( read + + ) ;
if ( size & & ( ch ! = ' | ' ) ) {
* write + + = ch ;
size - - ;
}
}
* write = ' \0 ' ;
if ( ! strcasecmp ( needle , destination ) ) {
break ;
}
if ( 0 = = ch ) {
result = - 1 ;
break ;
}
}
return result ;
}
Add light synonyms
Add commands ``ChannelRemap``, ``MultiPWM``, ``AlexaCTRange``, ``PowerOnFade``, ``PWMCT``, ``WhiteBlend``, ``VirtualCT`` as synonyms for ``SetOption37, 68, 82, 91, 92, 105 and 106`` respectively
2021-01-26 13:56:58 +00:00
bool DecodeCommand ( const char * haystack , void ( * const MyCommand [ ] ) ( void ) , const uint8_t * synonyms = nullptr ) ;
bool DecodeCommand ( const char * haystack , void ( * const MyCommand [ ] ) ( void ) , const uint8_t * synonyms ) {
2019-08-11 17:12:18 +01:00
GetTextIndexed ( XdrvMailbox . command , CMDSZ , 0 , haystack ) ; // Get prefix if available
int prefix_length = strlen ( XdrvMailbox . command ) ;
2019-12-26 11:26:06 +00:00
if ( prefix_length ) {
char prefix [ prefix_length + 1 ] ;
snprintf_P ( prefix , sizeof ( prefix ) , XdrvMailbox . topic ) ; // Copy prefix part only
if ( strcasecmp ( prefix , XdrvMailbox . command ) ) {
return false ; // Prefix not in command
}
}
Add light synonyms
Add commands ``ChannelRemap``, ``MultiPWM``, ``AlexaCTRange``, ``PowerOnFade``, ``PWMCT``, ``WhiteBlend``, ``VirtualCT`` as synonyms for ``SetOption37, 68, 82, 91, 92, 105 and 106`` respectively
2021-01-26 13:56:58 +00:00
size_t syn_count = synonyms ? pgm_read_byte ( synonyms ) : 0 ;
2019-08-11 17:12:18 +01:00
int command_code = GetCommandCode ( XdrvMailbox . command + prefix_length , CMDSZ , XdrvMailbox . topic + prefix_length , haystack ) ;
if ( command_code > 0 ) { // Skip prefix
Add light synonyms
Add commands ``ChannelRemap``, ``MultiPWM``, ``AlexaCTRange``, ``PowerOnFade``, ``PWMCT``, ``WhiteBlend``, ``VirtualCT`` as synonyms for ``SetOption37, 68, 82, 91, 92, 105 and 106`` respectively
2021-01-26 13:56:58 +00:00
if ( command_code > syn_count ) {
// We passed the synonyms zone, it's a regular command
XdrvMailbox . command_code = command_code - 1 - syn_count ;
MyCommand [ XdrvMailbox . command_code ] ( ) ;
} else {
// We have a SetOption synonym
XdrvMailbox . index = pgm_read_byte ( synonyms + command_code ) ;
CmndSetoptionBase ( 0 ) ;
}
2019-08-13 15:10:47 +01:00
return true ;
2019-08-01 14:46:12 +01:00
}
2019-08-13 15:10:47 +01:00
return false ;
2019-07-28 16:57:09 +01:00
}
2019-11-23 14:30:40 +00:00
const char kOptions [ ] PROGMEM = " OFF| " D_OFF " |FALSE| " D_FALSE " |STOP| " D_STOP " | " D_CELSIUS " | " // 0
" ON| " D_ON " |TRUE| " D_TRUE " |START| " D_START " | " D_FAHRENHEIT " | " D_USER " | " // 1
" TOGGLE| " D_TOGGLE " | " D_ADMIN " | " // 2
" BLINK| " D_BLINK " | " // 3
" BLINKOFF| " D_BLINKOFF " | " // 4
" ALL " ; // 255
const uint8_t sNumbers [ ] PROGMEM = { 0 , 0 , 0 , 0 , 0 , 0 , 0 ,
1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 ,
2019-09-12 11:32:33 +01:00
2 , 2 , 2 ,
3 , 3 ,
4 , 4 ,
255 } ;
2021-08-13 15:35:24 +01:00
int GetStateNumber ( const char * state_text )
2018-05-06 15:07:42 +01:00
{
char command [ CMDSZ ] ;
2019-09-12 11:32:33 +01:00
int state_number = GetCommandCode ( command , sizeof ( command ) , state_text , kOptions ) ;
if ( state_number > = 0 ) {
state_number = pgm_read_byte ( sNumbers + state_number ) ;
2018-05-06 15:07:42 +01:00
}
return state_number ;
}
2018-02-20 15:19:48 +00:00
uint32_t GetHash ( const char * buffer , size_t size )
{
uint32_t hash = 0 ;
2019-06-30 15:44:36 +01:00
for ( uint32_t i = 0 ; i < = size ; i + + ) {
2018-02-20 15:19:48 +00:00
hash + = ( uint8_t ) * buffer + + * ( i + 1 ) ;
}
return hash ;
}
2019-07-27 10:13:41 +01:00
void ShowSource ( uint32_t source )
2018-05-28 14:52:42 +01:00
{
if ( ( source > 0 ) & & ( source < SRC_MAX ) ) {
char stemp1 [ 20 ] ;
2021-01-23 15:26:23 +00:00
AddLog ( LOG_LEVEL_DEBUG , PSTR ( " SRC: %s " ) , GetTextIndexed ( stemp1 , sizeof ( stemp1 ) , source , kCommandSource ) ) ;
2018-05-28 14:52:42 +01:00
}
}
2019-07-28 12:54:52 +01:00
void WebHexCode ( uint32_t i , const char * code )
2019-04-09 12:56:19 +01:00
{
char scolor [ 10 ] ;
strlcpy ( scolor , code , sizeof ( scolor ) ) ;
char * p = scolor ;
if ( ' # ' = = p [ 0 ] ) { p + + ; } // Skip
if ( 3 = = strlen ( p ) ) { // Convert 3 character to 6 character color code
p [ 6 ] = p [ 3 ] ; // \0
p [ 5 ] = p [ 2 ] ; // 3
p [ 4 ] = p [ 2 ] ; // 3
p [ 3 ] = p [ 1 ] ; // 2
p [ 2 ] = p [ 1 ] ; // 2
p [ 1 ] = p [ 0 ] ; // 1
}
uint32_t color = strtol ( p , nullptr , 16 ) ;
/*
if ( 3 = = strlen ( p ) ) { // Convert 3 character to 6 character color code
uint32_t w = ( ( color & 0xF00 ) < < 8 ) | ( ( color & 0x0F0 ) < < 4 ) | ( color & 0x00F ) ; // 00010203
color = w | ( w < < 4 ) ; // 00112233
}
*/
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uint32_t j = sizeof ( Settings - > web_color ) / 3 ; // First area contains j = 18 colors
2019-11-02 12:25:23 +00:00
/*
if ( i < j ) {
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Settings - > web_color [ i ] [ 0 ] = ( color > > 16 ) & 0xFF ; // Red
Settings - > web_color [ i ] [ 1 ] = ( color > > 8 ) & 0xFF ; // Green
Settings - > web_color [ i ] [ 2 ] = color & 0xFF ; // Blue
2019-11-02 04:33:40 +00:00
} else {
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Settings - > web_color2 [ i - j ] [ 0 ] = ( color > > 16 ) & 0xFF ; // Red
Settings - > web_color2 [ i - j ] [ 1 ] = ( color > > 8 ) & 0xFF ; // Green
Settings - > web_color2 [ i - j ] [ 2 ] = color & 0xFF ; // Blue
2019-11-02 12:25:23 +00:00
}
*/
if ( i > = j ) {
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// Calculate i to index in Settings->web_color2 - Dirty(!) but saves 128 bytes code
i + = ( ( ( ( uint8_t * ) & Settings - > web_color2 - ( uint8_t * ) & Settings - > web_color ) / 3 ) - j ) ;
2019-11-02 12:25:23 +00:00
}
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Settings - > web_color [ i ] [ 0 ] = ( color > > 16 ) & 0xFF ; // Red
Settings - > web_color [ i ] [ 1 ] = ( color > > 8 ) & 0xFF ; // Green
Settings - > web_color [ i ] [ 2 ] = color & 0xFF ; // Blue
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}
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uint32_t WebColor ( uint32_t i )
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{
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uint32_t j = sizeof ( Settings - > web_color ) / 3 ; // First area contains j = 18 colors
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/*
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uint32_t tcolor = ( i < j ) ? ( Settings - > web_color [ i ] [ 0 ] < < 16 ) | ( Settings - > web_color [ i ] [ 1 ] < < 8 ) | Settings - > web_color [ i ] [ 2 ] :
( Settings - > web_color2 [ i - j ] [ 0 ] < < 16 ) | ( Settings - > web_color2 [ i - j ] [ 1 ] < < 8 ) | Settings - > web_color2 [ i - j ] [ 2 ] ;
2019-11-02 12:25:23 +00:00
*/
if ( i > = j ) {
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// Calculate i to index in Settings->web_color2 - Dirty(!) but saves 128 bytes code
i + = ( ( ( ( uint8_t * ) & Settings - > web_color2 - ( uint8_t * ) & Settings - > web_color ) / 3 ) - j ) ;
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}
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uint32_t tcolor = ( Settings - > web_color [ i ] [ 0 ] < < 16 ) | ( Settings - > web_color [ i ] [ 1 ] < < 8 ) | Settings - > web_color [ i ] [ 2 ] ;
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2019-04-09 12:56:19 +01:00
return tcolor ;
}
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/*********************************************************************************************\
* Response data handling
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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const uint16_t TIMESZ = 100 ; // Max number of characters in time string
char * ResponseGetTime ( uint32_t format , char * time_str )
{
switch ( format ) {
case 1 :
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snprintf_P ( time_str , TIMESZ , PSTR ( " { \" " D_JSON_TIME " \" : \" %s \" , \" Epoch \" :%u " ) , GetDateAndTime ( DT_LOCAL ) . c_str ( ) , UtcTime ( ) ) ;
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break ;
case 2 :
snprintf_P ( time_str , TIMESZ , PSTR ( " { \" " D_JSON_TIME " \" :%u " ) , UtcTime ( ) ) ;
break ;
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case 3 :
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snprintf_P ( time_str , TIMESZ , PSTR ( " { \" " D_JSON_TIME " \" : \" %s \" " ) , GetDateAndTime ( DT_LOCAL_MILLIS ) . c_str ( ) ) ;
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break ;
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default :
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snprintf_P ( time_str , TIMESZ , PSTR ( " { \" " D_JSON_TIME " \" : \" %s \" " ) , GetDateAndTime ( DT_LOCAL ) . c_str ( ) ) ;
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}
return time_str ;
}
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char * ResponseData ( void ) {
# ifdef MQTT_DATA_STRING
return ( char * ) TasmotaGlobal . mqtt_data . c_str ( ) ;
# else
return TasmotaGlobal . mqtt_data ;
# endif
}
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uint32_t ResponseSize ( void ) {
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# ifdef MQTT_DATA_STRING
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return MAX_LOGSZ ; // Arbitratry max length satisfying full log entry
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# else
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return sizeof ( TasmotaGlobal . mqtt_data ) ;
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# endif
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}
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uint32_t ResponseLength ( void ) {
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# ifdef MQTT_DATA_STRING
return TasmotaGlobal . mqtt_data . length ( ) ;
# else
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return strlen ( TasmotaGlobal . mqtt_data ) ;
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# endif
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}
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void ResponseClear ( void ) {
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// Reset string length to zero
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# ifdef MQTT_DATA_STRING
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TasmotaGlobal . mqtt_data = " " ;
// TasmotaGlobal.mqtt_data = (const char*) nullptr; // Doesn't work on ESP32 as strlen() (in MqttPublishPayload) will fail (for obvious reasons)
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# else
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TasmotaGlobal . mqtt_data [ 0 ] = ' \0 ' ;
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# endif
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}
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void ResponseJsonStart ( void ) {
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// Insert a JSON start bracket {
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# ifdef MQTT_DATA_STRING
TasmotaGlobal . mqtt_data . setCharAt ( 0 , ' { ' ) ;
# else
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TasmotaGlobal . mqtt_data [ 0 ] = ' { ' ;
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# endif
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}
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int Response_P ( const char * format , . . . ) // Content send snprintf_P char data
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{
// This uses char strings. Be aware of sending %% if % is needed
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# ifdef MQTT_DATA_STRING
va_list arg ;
va_start ( arg , format ) ;
char * mqtt_data = ext_vsnprintf_malloc_P ( format , arg ) ;
va_end ( arg ) ;
if ( mqtt_data ! = nullptr ) {
TasmotaGlobal . mqtt_data = mqtt_data ;
free ( mqtt_data ) ;
} else {
TasmotaGlobal . mqtt_data = " " ;
}
return TasmotaGlobal . mqtt_data . length ( ) ;
# else
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va_list args ;
va_start ( args , format ) ;
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int len = ext_vsnprintf_P ( TasmotaGlobal . mqtt_data , ResponseSize ( ) , format , args ) ;
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va_end ( args ) ;
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return len ;
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# endif
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}
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int ResponseTime_P ( const char * format , . . . ) // Content send snprintf_P char data
{
// This uses char strings. Be aware of sending %% if % is needed
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# ifdef MQTT_DATA_STRING
char timestr [ 100 ] ;
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TasmotaGlobal . mqtt_data = ResponseGetTime ( Settings - > flag2 . time_format , timestr ) ;
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va_list arg ;
va_start ( arg , format ) ;
char * mqtt_data = ext_vsnprintf_malloc_P ( format , arg ) ;
va_end ( arg ) ;
if ( mqtt_data ! = nullptr ) {
TasmotaGlobal . mqtt_data + = mqtt_data ;
free ( mqtt_data ) ;
}
return TasmotaGlobal . mqtt_data . length ( ) ;
# else
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va_list args ;
va_start ( args , format ) ;
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ResponseGetTime ( Settings - > flag2 . time_format , TasmotaGlobal . mqtt_data ) ;
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int mlen = ResponseLength ( ) ;
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int len = ext_vsnprintf_P ( TasmotaGlobal . mqtt_data + mlen , ResponseSize ( ) - mlen , format , args ) ;
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va_end ( args ) ;
return len + mlen ;
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# endif
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}
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int ResponseAppend_P ( const char * format , . . . ) // Content send snprintf_P char data
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{
// This uses char strings. Be aware of sending %% if % is needed
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# ifdef MQTT_DATA_STRING
va_list arg ;
va_start ( arg , format ) ;
char * mqtt_data = ext_vsnprintf_malloc_P ( format , arg ) ;
va_end ( arg ) ;
if ( mqtt_data ! = nullptr ) {
TasmotaGlobal . mqtt_data + = mqtt_data ;
free ( mqtt_data ) ;
}
return TasmotaGlobal . mqtt_data . length ( ) ;
# else
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va_list args ;
va_start ( args , format ) ;
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int mlen = ResponseLength ( ) ;
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int len = ext_vsnprintf_P ( TasmotaGlobal . mqtt_data + mlen , ResponseSize ( ) - mlen , format , args ) ;
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va_end ( args ) ;
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return len + mlen ;
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# endif
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}
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int ResponseAppendTimeFormat ( uint32_t format )
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{
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char time_str [ TIMESZ ] ;
return ResponseAppend_P ( ResponseGetTime ( format , time_str ) ) ;
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}
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int ResponseAppendTime ( void )
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{
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return ResponseAppendTimeFormat ( Settings - > flag2 . time_format ) ;
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}
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int ResponseAppendTHD ( float f_temperature , float f_humidity )
{
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float dewpoint = CalcTempHumToDew ( f_temperature , f_humidity ) ;
return ResponseAppend_P ( PSTR ( " \" " D_JSON_TEMPERATURE " \" :%*_f, \" " D_JSON_HUMIDITY " \" :%*_f, \" " D_JSON_DEWPOINT " \" :%*_f " ) ,
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Settings - > flag2 . temperature_resolution , & f_temperature ,
Settings - > flag2 . humidity_resolution , & f_humidity ,
Settings - > flag2 . temperature_resolution , & dewpoint ) ;
2020-03-17 15:29:59 +00:00
}
Add support for Shelly 1PM Template
Add support for Shelly 1PM Template {"NAME":"Shelly 1PM","GPIO":[56,0,0,0,82,134,0,0,0,0,0,21,0],"FLAG":2,"BASE":18} (#5716)
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int ResponseJsonEnd ( void )
{
return ResponseAppend_P ( PSTR ( " } " ) ) ;
}
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int ResponseJsonEndEnd ( void )
{
return ResponseAppend_P ( PSTR ( " }} " ) ) ;
}
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bool ResponseContains_P ( const char * needle ) {
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/*
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# ifdef MQTT_DATA_STRING
return ( strstr_P ( TasmotaGlobal . mqtt_data . c_str ( ) , needle ) ! = nullptr ) ;
# else
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return ( strstr_P ( TasmotaGlobal . mqtt_data , needle ) ! = nullptr ) ;
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# endif
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*/
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return ( strstr_P ( ResponseData ( ) , needle ) ! = nullptr ) ;
}
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2019-02-12 10:55:47 +00:00
/*********************************************************************************************\
* GPIO Module and Template management
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
2020-09-25 17:34:14 +01:00
# ifdef ESP8266
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uint16_t GpioConvert ( uint8_t gpio ) {
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if ( gpio > = nitems ( kGpioConvert ) ) {
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return AGPIO ( GPIO_USER ) ;
}
return pgm_read_word ( kGpioConvert + gpio ) ;
}
uint16_t Adc0Convert ( uint8_t adc0 ) {
if ( adc0 > 7 ) {
return AGPIO ( GPIO_USER ) ;
}
else if ( 0 = = adc0 ) {
return GPIO_NONE ;
}
return AGPIO ( GPIO_ADC_INPUT + adc0 - 1 ) ;
}
void TemplateConvert ( uint8_t template8 [ ] , uint16_t template16 [ ] ) {
for ( uint32_t i = 0 ; i < ( sizeof ( mytmplt ) / 2 ) - 2 ; i + + ) {
template16 [ i ] = GpioConvert ( template8 [ i ] ) ;
}
template16 [ ( sizeof ( mytmplt ) / 2 ) - 2 ] = Adc0Convert ( template8 [ sizeof ( mytmplt8285 ) - 1 ] ) ;
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}
void ConvertGpios ( void ) {
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if ( Settings - > gpio16_converted ! = 0xF5A0 ) {
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// Convert 8-bit user template
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TemplateConvert ( ( uint8_t * ) & Settings - > ex_user_template8 , ( uint16_t * ) & Settings - > user_template ) ;
2020-09-29 13:08:48 +01:00
2021-06-11 17:14:12 +01:00
for ( uint32_t i = 0 ; i < sizeof ( Settings - > ex_my_gp8 . io ) ; i + + ) {
Settings - > my_gp . io [ i ] = GpioConvert ( Settings - > ex_my_gp8 . io [ i ] ) ;
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}
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Settings - > my_gp . io [ ( sizeof ( myio ) / 2 ) - 1 ] = Adc0Convert ( Settings - > ex_my_adc0 ) ;
Settings - > gpio16_converted = 0xF5A0 ;
2020-09-30 13:19:18 +01:00
}
}
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# endif // ESP8266
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2021-04-02 16:14:08 +01:00
int IRAM_ATTR Pin ( uint32_t gpio , uint32_t index = 0 ) ;
int IRAM_ATTR Pin ( uint32_t gpio , uint32_t index ) {
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uint16_t real_gpio = gpio < < 5 ;
uint16_t mask = 0xFFE0 ;
if ( index < GPIO_ANY ) {
real_gpio + = index ;
mask = 0xFFFF ;
}
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for ( uint32_t i = 0 ; i < nitems ( TasmotaGlobal . gpio_pin ) ; i + + ) {
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if ( ( TasmotaGlobal . gpio_pin [ i ] & mask ) = = real_gpio ) {
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return i ; // Pin number configured for gpio
}
}
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return - 1 ; // No pin used for gpio
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}
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bool PinUsed ( uint32_t gpio , uint32_t index = 0 ) ;
bool PinUsed ( uint32_t gpio , uint32_t index ) {
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return ( Pin ( gpio , index ) > = 0 ) ;
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}
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uint32_t GetPin ( uint32_t lpin ) {
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if ( lpin < nitems ( TasmotaGlobal . gpio_pin ) ) {
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return TasmotaGlobal . gpio_pin [ lpin ] ;
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} else {
return GPIO_NONE ;
}
}
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void SetPin ( uint32_t lpin , uint32_t gpio ) {
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TasmotaGlobal . gpio_pin [ lpin ] = gpio ;
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}
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void DigitalWrite ( uint32_t gpio_pin , uint32_t index , uint32_t state )
2019-12-18 17:21:10 +00:00
{
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if ( PinUsed ( gpio_pin , index ) ) {
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digitalWrite ( Pin ( gpio_pin , index ) , state & 1 ) ;
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}
}
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uint8_t ModuleNr ( void )
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{
// 0 = User module (255)
// 1 up = Template module 0 up
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return ( USER_MODULE = = Settings - > module ) ? 0 : Settings - > module + 1 ;
2019-02-22 11:11:15 +00:00
}
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uint32_t ModuleTemplate ( uint32_t module ) {
uint32_t i = 0 ;
for ( i = 0 ; i < sizeof ( kModuleNiceList ) ; i + + ) {
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if ( module = = pgm_read_byte ( kModuleNiceList + i ) ) {
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break ;
}
}
if ( i = = sizeof ( kModuleNiceList ) ) { i = 0 ; }
return i ;
}
2019-07-28 12:54:52 +01:00
bool ValidTemplateModule ( uint32_t index )
2019-04-05 14:27:06 +01:00
{
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for ( uint32_t i = 0 ; i < sizeof ( kModuleNiceList ) ; i + + ) {
2019-04-05 14:27:06 +01:00
if ( index = = pgm_read_byte ( kModuleNiceList + i ) ) {
return true ;
}
}
return false ;
}
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bool ValidModule ( uint32_t index )
2019-04-08 12:26:17 +01:00
{
if ( index = = USER_MODULE ) { return true ; }
return ValidTemplateModule ( index ) ;
}
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bool ValidTemplate ( const char * search ) {
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/*
2020-05-18 16:02:24 +01:00
char template_name [ strlen ( SettingsText ( SET_TEMPLATE_NAME ) ) + 1 ] ;
char search_name [ strlen ( search ) + 1 ] ;
LowerCase ( template_name , SettingsText ( SET_TEMPLATE_NAME ) ) ;
LowerCase ( search_name , search ) ;
return ( strstr ( template_name , search_name ) ! = nullptr ) ;
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*/
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return StrCaseStr_P ( SettingsText ( SET_TEMPLATE_NAME ) , search ) ;
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}
2019-07-28 12:54:52 +01:00
String AnyModuleName ( uint32_t index )
2019-02-12 10:55:47 +00:00
{
if ( USER_MODULE = = index ) {
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return String ( SettingsText ( SET_TEMPLATE_NAME ) ) ;
2019-02-12 10:55:47 +00:00
} else {
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# ifdef ESP32
index = ModuleTemplate ( index ) ;
# endif
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char name [ TOPSZ ] ;
2020-03-28 17:08:43 +00:00
return String ( GetTextIndexed ( name , sizeof ( name ) , index , kModuleNames ) ) ;
2019-02-12 10:55:47 +00:00
}
}
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String ModuleName ( void )
2019-02-12 10:55:47 +00:00
{
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return AnyModuleName ( Settings - > module ) ;
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}
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# ifdef ESP8266
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void GetInternalTemplate ( void * ptr , uint32_t module , uint32_t option ) {
uint8_t module_template = pgm_read_byte ( kModuleTemplateList + module ) ;
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// AddLog(LOG_LEVEL_DEBUG, PSTR("DBG: Template %d, Option %d"), module_template, option);
2020-08-22 17:03:20 +01:00
2020-09-25 17:15:31 +01:00
// template8 = GPIO 0,1,2,3,4,5,9,10,12,13,14,15,16,Adc
uint8_t template8 [ sizeof ( mytmplt8285 ) ] = { GPIO_NONE } ;
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if ( module_template < TMP_WEMOS ) {
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memcpy_P ( & template8 , & kModules8266 [ module_template ] , 6 ) ;
memcpy_P ( & template8 [ 8 ] , & kModules8266 [ module_template ] . gp . io [ 6 ] , 6 ) ;
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} else {
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memcpy_P ( & template8 , & kModules8285 [ module_template - TMP_WEMOS ] , sizeof ( template8 ) ) ;
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}
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// AddLogBuffer(LOG_LEVEL_DEBUG, (uint8_t *)&template8, sizeof(mytmplt8285));
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// template16 = GPIO 0,1,2,3,4,5,9,10,12,13,14,15,16,Adc,Flg
uint16_t template16 [ ( sizeof ( mytmplt ) / 2 ) ] = { GPIO_NONE } ;
TemplateConvert ( template8 , template16 ) ;
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uint32_t index = 0 ;
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uint32_t size = sizeof ( mycfgio ) ; // template16[module_template].gp
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switch ( option ) {
case 2 : {
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index = ( sizeof ( mytmplt ) / 2 ) - 1 ; // template16[module_template].flag
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size = 2 ;
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break ;
}
case 3 : {
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size = sizeof ( mytmplt ) ; // template16[module_template]
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break ;
}
}
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memcpy ( ptr , & template16 [ index ] , size ) ;
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2021-01-23 15:26:23 +00:00
// AddLog(LOG_LEVEL_DEBUG, PSTR("FNC: GetInternalTemplate option %d"), option);
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// AddLogBufferSize(LOG_LEVEL_DEBUG, (uint8_t *)ptr, size / 2, 2);
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}
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# endif // ESP8266
2020-08-22 17:03:20 +01:00
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# ifdef CONFIG_IDF_TARGET_ESP32
// Conversion table from gpio template to physical gpio
const uint8_t Esp32TemplateToPhy [ MAX_USER_PINS ] = { ESP32_TEMPLATE_TO_PHY } ;
# endif // CONFIG_IDF_TARGET_ESP32
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void TemplateGpios ( myio * gp )
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{
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uint16_t * dest = ( uint16_t * ) gp ;
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uint16_t src [ nitems ( Settings - > user_template . gp . io ) ] ;
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memset ( dest , GPIO_NONE , sizeof ( myio ) ) ;
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if ( USER_MODULE = = Settings - > module ) {
memcpy ( & src , & Settings - > user_template . gp , sizeof ( mycfgio ) ) ;
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} else {
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# ifdef ESP8266
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GetInternalTemplate ( & src , Settings - > module , 1 ) ;
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# endif // ESP8266
# ifdef ESP32
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memcpy_P ( & src , & kModules [ ModuleTemplate ( Settings - > module ) ] . gp , sizeof ( mycfgio ) ) ;
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# endif // ESP32
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}
// 11 85 00 85 85 00 00 00 15 38 85 00 00 81
// AddLogBuffer(LOG_LEVEL_DEBUG, (uint8_t *)&src, sizeof(mycfgio));
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// Expand template to physical GPIO array, j=phy_GPIO, i=template_GPIO
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uint32_t j = 0 ;
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for ( uint32_t i = 0 ; i < nitems ( Settings - > user_template . gp . io ) ; i + + ) {
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# if defined(ESP32) && CONFIG_IDF_TARGET_ESP32C3
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dest [ i ] = src [ i ] ;
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# elif defined(CONFIG_IDF_TARGET_ESP32S2)
if ( 22 = = i ) { j = 33 ; } // skip 22-32
dest [ j ] = src [ i ] ;
j + + ;
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# elif defined(CONFIG_IDF_TARGET_ESP32)
dest [ Esp32TemplateToPhy [ i ] ] = src [ i ] ;
# else // ESP8266
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if ( 6 = = i ) { j = 9 ; }
if ( 8 = = i ) { j = 12 ; }
dest [ j ] = src [ i ] ;
j + + ;
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# endif
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}
// 11 85 00 85 85 00 00 00 00 00 00 00 15 38 85 00 00 81
// AddLogBuffer(LOG_LEVEL_DEBUG, (uint8_t *)gp, sizeof(myio));
}
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gpio_flag ModuleFlag ( void )
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{
gpio_flag flag ;
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if ( USER_MODULE = = Settings - > module ) {
flag = Settings - > user_template . flag ;
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} else {
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# ifdef ESP8266
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GetInternalTemplate ( & flag , Settings - > module , 2 ) ;
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# endif // ESP8266
# ifdef ESP32
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memcpy_P ( & flag , & kModules [ ModuleTemplate ( Settings - > module ) ] . flag , sizeof ( gpio_flag ) ) ;
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# endif // ESP32
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}
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return flag ;
}
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void ModuleDefault ( uint32_t module )
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{
if ( USER_MODULE = = module ) { module = WEMOS ; } // Generic
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Settings - > user_template_base = module ;
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# ifdef ESP32
module = ModuleTemplate ( module ) ;
# endif
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char name [ TOPSZ ] ;
SettingsUpdateText ( SET_TEMPLATE_NAME , GetTextIndexed ( name , sizeof ( name ) , module , kModuleNames ) ) ;
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# ifdef ESP8266
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GetInternalTemplate ( & Settings - > user_template , module , 3 ) ;
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# endif // ESP8266
# ifdef ESP32
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memcpy_P ( & Settings - > user_template , & kModules [ module ] , sizeof ( mytmplt ) ) ;
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# endif // ESP32
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}
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void SetModuleType ( void )
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{
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TasmotaGlobal . module_type = ( USER_MODULE = = Settings - > module ) ? Settings - > user_template_base : Settings - > module ;
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}
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bool FlashPin ( uint32_t pin )
{
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# if defined(ESP32) && CONFIG_IDF_TARGET_ESP32C3
return ( pin > 10 ) & & ( pin < 18 ) ; // ESP32C3 has GPIOs 11-17 reserved for Flash
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# elif defined(CONFIG_IDF_TARGET_ESP32S2)
return ( pin > 21 ) & & ( pin < 33 ) ; // ESP32S2 skip 22-32
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# elif defined(CONFIG_IDF_TARGET_ESP32)
return ( pin > = 28 ) & & ( pin < = 31 ) ; // ESP21 skip 28-31
# else // ESP8266
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return ( ( ( pin > 5 ) & & ( pin < 9 ) ) | | ( 11 = = pin ) ) ;
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# endif
}
bool RedPin ( uint32_t pin ) // pin may be dangerous to change, display in RED in template console
{
# if defined(ESP32) && CONFIG_IDF_TARGET_ESP32C3
return false ; // no red pin on ESP32C3
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# elif defined(CONFIG_IDF_TARGET_ESP32S2)
return false ; // no red pin on ESP32S3
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# elif defined(CONFIG_IDF_TARGET_ESP32) // red pins are 6-11 for original ESP32, other models like PICO are not impacted if flash pins are condfigured
// PICO can also have 16/17/18/23 not available
return ( ( 6 < = pin ) & & ( 11 > = pin ) ) | | ( 16 = = pin ) | | ( 17 = = pin ) ; // TODO adapt depending on the exact type of ESP32
# else // ESP8266
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return ( 9 = = pin ) | | ( 10 = = pin ) ;
# endif
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}
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uint32_t ValidPin ( uint32_t pin , uint32_t gpio ) {
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if ( FlashPin ( pin ) ) {
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return GPIO_NONE ; // Disable flash pins GPIO6, GPIO7, GPIO8 and GPIO11
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}
2019-12-02 09:31:33 +00:00
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# if defined(CONFIG_IDF_TARGET_ESP32C3)
// ignore
# elif defined(CONFIG_IDF_TARGET_ESP32S2)
// ignore
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# elif defined(CONFIG_IDF_TARGET_ESP32)
// ignore
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# else // not ESP32C3 and not ESP32S2
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if ( ( WEMOS = = Settings - > module ) & & ! Settings - > flag3 . user_esp8285_enable ) { // SetOption51 - Enable ESP8285 user GPIO's
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if ( ( 9 = = pin ) | | ( 10 = = pin ) ) {
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return GPIO_NONE ; // Disable possible flash GPIO9 and GPIO10
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}
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}
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# endif
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return gpio ;
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}
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bool ValidGPIO ( uint32_t pin , uint32_t gpio ) {
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# ifdef ESP8266
# ifdef USE_ADC_VCC
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if ( ADC0_PIN = = pin ) { return false ; } // ADC0 = GPIO17
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# endif
# endif
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return ( GPIO_USER = = ValidPin ( pin , BGPIO ( gpio ) ) ) ; // Only allow GPIO_USER pins
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}
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bool ValidSpiPinUsed ( uint32_t gpio ) {
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// ESP8266: If SPI pin selected chk if it's not one of the three Hardware SPI pins (12..14)
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bool result = false ;
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if ( PinUsed ( gpio ) ) {
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int pin = Pin ( gpio ) ;
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result = ( ( pin < 12 ) | | ( pin > 14 ) ) ;
}
return result ;
}
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bool JsonTemplate ( char * dataBuf )
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{
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// Old: {"NAME":"Shelly 2.5","GPIO":[56,0,17,0,21,83,0,0,6,82,5,22,156],"FLAG":2,"BASE":18}
// New: {"NAME":"Shelly 2.5","GPIO":[320,0,32,0,224,193,0,0,640,192,608,225,3456,4736],"FLAG":0,"BASE":18}
Add command WebColor
* Add rule Http#Initialized
* Add command WebColor to change non-persistent GUI colors on the fly
Use a rule like:
rule3 on http#initialized do webcolor {"webcolor":["#eeeeee","#181818","#4f4f4f","#000000","#dddddd","#008000","#222222","#ff0000","#008000","#ffffff","#1fa3ec","#0e70a4","#d43535","#931f1f","#47c266","#5aaf6f","#ffffff","#999999","#000000"]} endon
or
rule3 on http#initialized do webcolor {"webcolor":["#eee","#181818","#4f4f4f","#000","#ddd","#008000","#222"]} endon
to make color changes persistent)
2019-04-08 21:37:39 +01:00
2021-06-05 10:47:09 +01:00
// AddLog(LOG_LEVEL_DEBUG, PSTR("TPL: |%s|"), dataBuf);
2020-10-10 11:20:15 +01:00
Add command WebColor
* Add rule Http#Initialized
* Add command WebColor to change non-persistent GUI colors on the fly
Use a rule like:
rule3 on http#initialized do webcolor {"webcolor":["#eeeeee","#181818","#4f4f4f","#000000","#dddddd","#008000","#222222","#ff0000","#008000","#ffffff","#1fa3ec","#0e70a4","#d43535","#931f1f","#47c266","#5aaf6f","#ffffff","#999999","#000000"]} endon
or
rule3 on http#initialized do webcolor {"webcolor":["#eee","#181818","#4f4f4f","#000","#ddd","#008000","#222"]} endon
to make color changes persistent)
2019-04-08 21:37:39 +01:00
if ( strlen ( dataBuf ) < 9 ) { return false ; } // Workaround exception if empty JSON like {} - Needs checks
2020-09-23 18:38:24 +01:00
JsonParser parser ( ( char * ) dataBuf ) ;
JsonParserObject root = parser . getRootObject ( ) ;
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if ( ! root ) { return false ; }
2019-02-21 13:31:31 +00:00
// All parameters are optional allowing for partial changes
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JsonParserToken val = root [ PSTR ( D_JSON_NAME ) ] ;
if ( val ) {
SettingsUpdateText ( SET_TEMPLATE_NAME , val . getStr ( ) ) ;
2019-02-21 13:31:31 +00:00
}
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JsonParserArray arr = root [ PSTR ( D_JSON_GPIO ) ] ;
if ( arr ) {
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# ifdef ESP8266
2020-10-04 14:46:20 +01:00
bool old_template = false ;
uint8_t template8 [ sizeof ( mytmplt8285 ) ] = { GPIO_NONE } ;
if ( 13 = = arr . size ( ) ) { // Possible old template
uint32_t gpio = 0 ;
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for ( uint32_t i = 0 ; i < nitems ( template8 ) - 1 ; i + + ) {
2020-10-04 14:46:20 +01:00
gpio = arr [ i ] . getUInt ( ) ;
if ( gpio > 255 ) { // New templates might have values above 255
break ;
}
template8 [ i ] = gpio ;
}
old_template = ( gpio < 256 ) ;
}
if ( old_template ) {
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2021-01-23 15:26:23 +00:00
AddLog ( LOG_LEVEL_DEBUG , PSTR ( " TPL: Converting template ... " ) ) ;
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val = root [ PSTR ( D_JSON_FLAG ) ] ;
if ( val ) {
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template8 [ nitems ( template8 ) - 1 ] = val . getUInt ( ) & 0x0F ;
2020-09-30 14:26:46 +01:00
}
2021-06-11 17:14:12 +01:00
TemplateConvert ( template8 , Settings - > user_template . gp . io ) ;
Settings - > user_template . flag . data = 0 ;
2020-09-30 14:26:46 +01:00
} else {
2020-06-18 11:55:10 +01:00
# endif
2021-06-11 17:14:12 +01:00
for ( uint32_t i = 0 ; i < nitems ( Settings - > user_template . gp . io ) ; i + + ) {
2020-10-04 11:46:06 +01:00
JsonParserToken val = arr [ i ] ;
if ( ! val ) { break ; }
uint16_t gpio = val . getUInt ( ) ;
2020-09-30 14:26:46 +01:00
if ( gpio = = ( AGPIO ( GPIO_NONE ) + 1 ) ) {
gpio = AGPIO ( GPIO_USER ) ;
}
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Settings - > user_template . gp . io [ i ] = gpio ;
2020-09-30 14:26:46 +01:00
}
val = root [ PSTR ( D_JSON_FLAG ) ] ;
if ( val ) {
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Settings - > user_template . flag . data = val . getUInt ( ) ;
2020-09-30 14:26:46 +01:00
}
2019-02-21 13:31:31 +00:00
}
2020-09-30 14:26:46 +01:00
# ifdef ESP8266
2019-02-21 13:31:31 +00:00
}
2020-09-30 14:26:46 +01:00
# endif
2020-09-21 20:49:32 +01:00
val = root [ PSTR ( D_JSON_BASE ) ] ;
if ( val ) {
uint32_t base = val . getUInt ( ) ;
2019-04-08 12:26:17 +01:00
if ( ( 0 = = base ) | | ! ValidTemplateModule ( base - 1 ) ) { base = 18 ; }
2021-06-11 17:14:12 +01:00
Settings - > user_template_base = base - 1 ; // Default WEMOS
2019-02-21 13:31:31 +00:00
}
2020-10-10 11:20:15 +01:00
2021-04-25 16:22:38 +01:00
val = root [ PSTR ( D_JSON_CMND ) ] ;
if ( val ) {
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if ( ( USER_MODULE = = Settings - > module ) | | StrCaseStr_P ( val . getStr ( ) , PSTR ( D_CMND_MODULE " 0 " ) ) ) { // Only execute if current module = USER_MODULE = this template
2021-04-25 16:22:38 +01:00
char * backup_data = XdrvMailbox . data ;
2021-04-29 16:00:04 +01:00
XdrvMailbox . data = ( char * ) val . getStr ( ) ; // Backlog commands
ReplaceChar ( XdrvMailbox . data , ' | ' , ' ; ' ) ; // Support '|' as command separator for JSON backwards compatibility
2021-04-25 16:22:38 +01:00
uint32_t backup_data_len = XdrvMailbox . data_len ;
2021-04-29 16:00:04 +01:00
XdrvMailbox . data_len = 1 ; // Any data
2021-04-25 16:22:38 +01:00
uint32_t backup_index = XdrvMailbox . index ;
2021-04-29 16:00:04 +01:00
XdrvMailbox . index = 0 ; // Backlog0 - no delay
2021-04-25 16:22:38 +01:00
CmndBacklog ( ) ;
XdrvMailbox . index = backup_index ;
XdrvMailbox . data_len = backup_data_len ;
XdrvMailbox . data = backup_data ;
}
}
2021-01-23 15:26:23 +00:00
// AddLog(LOG_LEVEL_DEBUG, PSTR("TPL: Converted"));
2021-06-11 17:14:12 +01:00
// AddLogBufferSize(LOG_LEVEL_DEBUG, (uint8_t*)&Settings->user_template, sizeof(Settings->user_template) / 2, 2);
2020-10-10 11:20:15 +01:00
2019-02-21 13:31:31 +00:00
return true ;
}
2019-11-20 19:53:12 +00:00
void TemplateJson ( void )
2019-02-12 10:55:47 +00:00
{
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// AddLog(LOG_LEVEL_DEBUG, PSTR("TPL: Show"));
2021-06-11 17:14:12 +01:00
// AddLogBufferSize(LOG_LEVEL_DEBUG, (uint8_t*)&Settings->user_template, sizeof(Settings->user_template) / 2, 2);
2020-10-10 11:20:15 +01:00
2020-03-29 16:41:31 +01:00
Response_P ( PSTR ( " { \" " D_JSON_NAME " \" : \" %s \" , \" " D_JSON_GPIO " \" :[ " ) , SettingsText ( SET_TEMPLATE_NAME ) ) ;
2021-06-11 17:14:12 +01:00
for ( uint32_t i = 0 ; i < nitems ( Settings - > user_template . gp . io ) ; i + + ) {
uint16_t gpio = Settings - > user_template . gp . io [ i ] ;
2020-06-18 11:55:10 +01:00
if ( gpio = = AGPIO ( GPIO_USER ) ) {
gpio = AGPIO ( GPIO_NONE ) + 1 ;
}
ResponseAppend_P ( PSTR ( " %s%d " ) , ( i > 0 ) ? " , " : " " , gpio ) ;
2019-02-12 10:55:47 +00:00
}
2021-06-11 17:14:12 +01:00
ResponseAppend_P ( PSTR ( " ], \" " D_JSON_FLAG " \" :%d, \" " D_JSON_BASE " \" :%d} " ) , Settings - > user_template . flag , Settings - > user_template_base + 1 ) ;
2019-02-12 10:55:47 +00:00
}
2021-02-15 16:22:06 +00:00
# if ( defined(USE_SCRIPT) && defined(SUPPORT_MQTT_EVENT) ) || defined (USE_DT_VARS)
/*********************************************************************************************\
* Parse json paylod with path
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
// parser object, source keys, delimiter, float result or NULL, string result or NULL, string size
// return 1 if numeric 2 if string, else 0 = not found
uint32_t JsonParsePath ( JsonParserObject * jobj , const char * spath , char delim , float * nres , char * sres , uint32_t slen ) {
uint32_t res = 0 ;
const char * cp = spath ;
# ifdef DEBUG_JSON_PARSE_PATH
AddLog ( LOG_LEVEL_INFO , PSTR ( " JSON: parsing json key: %s from json: %s " ) , cp , jpath ) ;
# endif
JsonParserObject obj = * jobj ;
JsonParserObject lastobj = obj ;
char selem [ 32 ] ;
uint8_t aindex = 0 ;
String value = " " ;
while ( 1 ) {
// read next element
for ( uint32_t sp = 0 ; sp < sizeof ( selem ) - 1 ; sp + + ) {
if ( ! * cp | | * cp = = delim ) {
selem [ sp ] = 0 ;
cp + + ;
break ;
}
selem [ sp ] = * cp + + ;
}
# ifdef DEBUG_JSON_PARSE_PATH
AddLog ( LOG_LEVEL_INFO , PSTR ( " JSON: cmp current key: %s " ) , selem ) ;
# endif
// check for array
char * sp = strchr ( selem , ' [ ' ) ;
if ( sp ) {
* sp = 0 ;
aindex = atoi ( sp + 1 ) ;
}
// now check element
obj = obj [ selem ] ;
if ( ! obj . isValid ( ) ) {
# ifdef DEBUG_JSON_PARSE_PATH
AddLog ( LOG_LEVEL_INFO , PSTR ( " JSON: obj invalid: %s " ) , selem ) ;
# endif
JsonParserToken tok = lastobj [ selem ] ;
if ( tok . isValid ( ) ) {
if ( tok . isArray ( ) ) {
JsonParserArray array = JsonParserArray ( tok ) ;
value = array [ aindex ] . getStr ( ) ;
if ( array . isNum ( ) ) {
if ( nres ) * nres = tok . getFloat ( ) ;
res = 1 ;
} else {
res = 2 ;
}
} else {
value = tok . getStr ( ) ;
if ( tok . isNum ( ) ) {
if ( nres ) * nres = tok . getFloat ( ) ;
res = 1 ;
} else {
res = 2 ;
}
}
}
# ifdef DEBUG_JSON_PARSE_PATH
AddLog ( LOG_LEVEL_INFO , PSTR ( " JSON: token invalid: %s " ) , selem ) ;
# endif
break ;
}
if ( obj . isObject ( ) ) {
lastobj = obj ;
continue ;
}
if ( ! * cp ) break ;
}
if ( sres ) {
strlcpy ( sres , value . c_str ( ) , slen ) ;
}
return res ;
}
# endif // USE_SCRIPT
2021-09-20 13:31:00 +01:00
/*********************************************************************************************\
* Serial
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
String GetSerialConfig ( void ) {
// Settings->serial_config layout
// b000000xx - 5, 6, 7 or 8 data bits
// b00000x00 - 1 or 2 stop bits
// b000xx000 - None, Even or Odd parity
const static char kParity [ ] PROGMEM = " NEOI " ;
char config [ 4 ] ;
config [ 0 ] = ' 5 ' + ( Settings - > serial_config & 0x3 ) ;
config [ 1 ] = pgm_read_byte ( & kParity [ ( Settings - > serial_config > > 3 ) & 0x3 ] ) ;
config [ 2 ] = ' 1 ' + ( ( Settings - > serial_config > > 2 ) & 0x1 ) ;
config [ 3 ] = ' \0 ' ;
return String ( config ) ;
}
# if defined(ESP32) && CONFIG_IDF_TARGET_ESP32C3
// temporary workaround, see https://github.com/espressif/arduino-esp32/issues/5287
# include <driver/uart.h>
uint32_t GetSerialBaudrate ( void ) {
uint32_t br ;
uart_get_baudrate ( 0 , & br ) ;
return ( br / 300 ) * 300 ; // Fix ESP32 strange results like 115201
}
# else
uint32_t GetSerialBaudrate ( void ) {
return ( Serial . baudRate ( ) / 300 ) * 300 ; // Fix ESP32 strange results like 115201
}
# endif
# ifdef ESP8266
void SetSerialSwap ( void ) {
if ( ( 15 = = Pin ( GPIO_TXD ) ) & & ( 13 = = Pin ( GPIO_RXD ) ) ) {
Serial . flush ( ) ;
Serial . swap ( ) ;
AddLog ( LOG_LEVEL_DEBUG , PSTR ( D_LOG_SERIAL " Serial pins swapped to alternate " ) ) ;
}
}
# endif
void SetSerialBegin ( void ) {
TasmotaGlobal . baudrate = Settings - > baudrate * 300 ;
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_SERIAL " Set to %s %d bit/s " ) , GetSerialConfig ( ) . c_str ( ) , TasmotaGlobal . baudrate ) ;
Serial . flush ( ) ;
# ifdef ESP8266
Serial . begin ( TasmotaGlobal . baudrate , ( SerialConfig ) pgm_read_byte ( kTasmotaSerialConfig + Settings - > serial_config ) ) ;
SetSerialSwap ( ) ;
# endif // ESP8266
# ifdef ESP32
delay ( 10 ) ; // Allow time to cleanup queues - if not used hangs ESP32
Serial . end ( ) ;
delay ( 10 ) ; // Allow time to cleanup queues - if not used hangs ESP32
uint32_t config = pgm_read_dword ( kTasmotaSerialConfig + Settings - > serial_config ) ;
Serial . begin ( TasmotaGlobal . baudrate , config ) ;
# endif // ESP32
}
void SetSerialConfig ( uint32_t serial_config ) {
if ( serial_config > TS_SERIAL_8O2 ) {
serial_config = TS_SERIAL_8N1 ;
}
if ( serial_config ! = Settings - > serial_config ) {
Settings - > serial_config = serial_config ;
SetSerialBegin ( ) ;
}
}
void SetSerialBaudrate ( uint32_t baudrate ) {
TasmotaGlobal . baudrate = baudrate ;
Settings - > baudrate = TasmotaGlobal . baudrate / 300 ;
if ( GetSerialBaudrate ( ) ! = TasmotaGlobal . baudrate ) {
SetSerialBegin ( ) ;
}
}
void SetSerial ( uint32_t baudrate , uint32_t serial_config ) {
Settings - > flag . mqtt_serial = 0 ; // CMND_SERIALSEND and CMND_SERIALLOG
Settings - > serial_config = serial_config ;
TasmotaGlobal . baudrate = baudrate ;
Settings - > baudrate = TasmotaGlobal . baudrate / 300 ;
SetSeriallog ( LOG_LEVEL_NONE ) ;
SetSerialBegin ( ) ;
}
void ClaimSerial ( void ) {
TasmotaGlobal . serial_local = true ;
AddLog ( LOG_LEVEL_INFO , PSTR ( " SNS: Hardware Serial " ) ) ;
SetSeriallog ( LOG_LEVEL_NONE ) ;
TasmotaGlobal . baudrate = GetSerialBaudrate ( ) ;
Settings - > baudrate = TasmotaGlobal . baudrate / 300 ;
}
void SerialSendRaw ( char * codes )
{
char * p ;
char stemp [ 3 ] ;
uint8_t code ;
int size = strlen ( codes ) ;
while ( size > 1 ) {
strlcpy ( stemp , codes , sizeof ( stemp ) ) ;
code = strtol ( stemp , & p , 16 ) ;
Serial . write ( code ) ;
size - = 2 ;
codes + = 2 ;
}
}
// values is a comma-delimited string: e.g. "72,101,108,108,111,32,87,111,114,108,100,33,10"
void SerialSendDecimal ( char * values )
{
char * p ;
uint8_t code ;
for ( char * str = strtok_r ( values , " , " , & p ) ; str ; str = strtok_r ( nullptr , " , " , & p ) ) {
code = ( uint8_t ) atoi ( str ) ;
Serial . write ( code ) ;
}
}
2018-08-26 14:42:35 +01:00
/*********************************************************************************************\
* Sleep aware time scheduler functions borrowed from ESPEasy
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
2020-02-15 11:57:23 +00:00
inline int32_t TimeDifference ( uint32_t prev , uint32_t next )
{
2020-01-14 15:41:47 +00:00
return ( ( int32_t ) ( next - prev ) ) ;
2018-08-26 14:42:35 +01:00
}
2020-01-14 15:41:47 +00:00
int32_t TimePassedSince ( uint32_t timestamp )
2018-08-26 14:42:35 +01:00
{
// Compute the number of milliSeconds passed since timestamp given.
// Note: value can be negative if the timestamp has not yet been reached.
return TimeDifference ( timestamp , millis ( ) ) ;
}
2020-01-14 15:41:47 +00:00
bool TimeReached ( uint32_t timer )
2018-08-26 14:42:35 +01:00
{
// Check if a certain timeout has been reached.
const long passed = TimePassedSince ( timer ) ;
return ( passed > = 0 ) ;
}
2020-10-28 10:48:57 +00:00
void SetNextTimeInterval ( uint32_t & timer , const uint32_t step )
2018-08-26 14:42:35 +01:00
{
timer + = step ;
const long passed = TimePassedSince ( timer ) ;
if ( passed < 0 ) { return ; } // Event has not yet happened, which is fine.
if ( static_cast < unsigned long > ( passed ) > step ) {
// No need to keep running behind, start again.
timer = millis ( ) + step ;
return ;
}
// Try to get in sync again.
timer = millis ( ) + ( step - passed ) ;
2018-05-17 14:36:45 +01:00
}
2020-02-15 11:57:23 +00:00
int32_t TimePassedSinceUsec ( uint32_t timestamp )
{
return TimeDifference ( timestamp , micros ( ) ) ;
}
bool TimeReachedUsec ( uint32_t timer )
{
// Check if a certain timeout has been reached.
const long passed = TimePassedSinceUsec ( timer ) ;
return ( passed > = 0 ) ;
}
2017-01-28 13:41:01 +00:00
/*********************************************************************************************\
* Basic I2C routines
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# ifdef USE_I2C
2019-03-31 10:59:04 +01:00
const uint8_t I2C_RETRY_COUNTER = 3 ;
2017-01-28 13:41:01 +00:00
2019-09-29 10:52:22 +01:00
uint32_t i2c_active [ 4 ] = { 0 } ;
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
uint32_t i2c_buffer = 0 ;
2021-03-13 21:42:24 +00:00
# ifdef ESP32
bool I2cValidRead ( uint8_t addr , uint8_t reg , uint8_t size , uint32_t bus = 0 ) ;
bool I2cValidRead ( uint8_t addr , uint8_t reg , uint8_t size , uint32_t bus )
# else
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
bool I2cValidRead ( uint8_t addr , uint8_t reg , uint8_t size )
2021-03-13 21:42:24 +00:00
# endif
2017-01-28 13:41:01 +00:00
{
2019-05-14 17:41:54 +01:00
uint8_t retry = I2C_RETRY_COUNTER ;
bool status = false ;
2021-03-13 21:42:24 +00:00
# ifdef ESP32
TwoWire & myWire = ( bus = = 0 ) ? Wire : Wire1 ;
# else
TwoWire & myWire = Wire ;
# endif
2017-01-28 13:41:01 +00:00
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
i2c_buffer = 0 ;
2019-05-14 17:41:54 +01:00
while ( ! status & & retry ) {
2021-03-13 21:42:24 +00:00
myWire . beginTransmission ( addr ) ; // start transmission to device
myWire . write ( reg ) ; // sends register address to read from
if ( 0 = = myWire . endTransmission ( false ) ) { // Try to become I2C Master, send data and collect bytes, keep master status for next request...
myWire . requestFrom ( ( int ) addr , ( int ) size ) ; // send data n-bytes read
if ( myWire . available ( ) = = size ) {
2019-06-30 15:44:36 +01:00
for ( uint32_t i = 0 ; i < size ; i + + ) {
2021-03-13 21:42:24 +00:00
i2c_buffer = i2c_buffer < < 8 | myWire . read ( ) ; // receive DATA
2017-01-28 13:41:01 +00:00
}
2019-05-14 17:41:54 +01:00
status = true ;
2017-04-25 17:24:42 +01:00
}
2017-01-28 13:41:01 +00:00
}
2019-05-14 17:41:54 +01:00
retry - - ;
}
2021-03-13 21:42:24 +00:00
if ( ! retry ) myWire . endTransmission ( ) ;
2019-05-14 17:41:54 +01:00
return status ;
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
}
bool I2cValidRead8 ( uint8_t * data , uint8_t addr , uint8_t reg )
{
bool status = I2cValidRead ( addr , reg , 1 ) ;
* data = ( uint8_t ) i2c_buffer ;
return status ;
}
bool I2cValidRead16 ( uint16_t * data , uint8_t addr , uint8_t reg )
{
bool status = I2cValidRead ( addr , reg , 2 ) ;
* data = ( uint16_t ) i2c_buffer ;
return status ;
}
bool I2cValidReadS16 ( int16_t * data , uint8_t addr , uint8_t reg )
{
bool status = I2cValidRead ( addr , reg , 2 ) ;
* data = ( int16_t ) i2c_buffer ;
return status ;
}
bool I2cValidRead16LE ( uint16_t * data , uint8_t addr , uint8_t reg )
{
uint16_t ldata ;
bool status = I2cValidRead16 ( & ldata , addr , reg ) ;
* data = ( ldata > > 8 ) | ( ldata < < 8 ) ;
return status ;
}
bool I2cValidReadS16_LE ( int16_t * data , uint8_t addr , uint8_t reg )
{
uint16_t ldata ;
bool status = I2cValidRead16LE ( & ldata , addr , reg ) ;
* data = ( int16_t ) ldata ;
return status ;
}
bool I2cValidRead24 ( int32_t * data , uint8_t addr , uint8_t reg )
{
bool status = I2cValidRead ( addr , reg , 3 ) ;
* data = i2c_buffer ;
return status ;
2017-01-28 13:41:01 +00:00
}
2017-10-18 17:22:34 +01:00
uint8_t I2cRead8 ( uint8_t addr , uint8_t reg )
2017-01-28 13:41:01 +00:00
{
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
I2cValidRead ( addr , reg , 1 ) ;
return ( uint8_t ) i2c_buffer ;
2017-01-28 13:41:01 +00:00
}
2017-10-18 17:22:34 +01:00
uint16_t I2cRead16 ( uint8_t addr , uint8_t reg )
2017-01-28 13:41:01 +00:00
{
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
I2cValidRead ( addr , reg , 2 ) ;
return ( uint16_t ) i2c_buffer ;
2017-01-28 13:41:01 +00:00
}
2017-10-18 17:22:34 +01:00
int16_t I2cReadS16 ( uint8_t addr , uint8_t reg )
2017-01-28 13:41:01 +00:00
{
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
I2cValidRead ( addr , reg , 2 ) ;
return ( int16_t ) i2c_buffer ;
2017-01-28 13:41:01 +00:00
}
2017-10-18 17:22:34 +01:00
uint16_t I2cRead16LE ( uint8_t addr , uint8_t reg )
2017-01-28 13:41:01 +00:00
{
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
I2cValidRead ( addr , reg , 2 ) ;
uint16_t temp = ( uint16_t ) i2c_buffer ;
2017-01-28 13:41:01 +00:00
return ( temp > > 8 ) | ( temp < < 8 ) ;
}
2017-10-18 17:22:34 +01:00
int16_t I2cReadS16_LE ( uint8_t addr , uint8_t reg )
2017-01-28 13:41:01 +00:00
{
2017-10-18 17:22:34 +01:00
return ( int16_t ) I2cRead16LE ( addr , reg ) ;
2017-01-28 13:41:01 +00:00
}
2017-10-18 17:22:34 +01:00
int32_t I2cRead24 ( uint8_t addr , uint8_t reg )
2017-01-28 13:41:01 +00:00
{
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
I2cValidRead ( addr , reg , 3 ) ;
return i2c_buffer ;
2017-01-28 13:41:01 +00:00
}
2017-11-11 11:33:30 +00:00
2021-03-13 21:42:24 +00:00
# ifdef ESP32
bool I2cWrite ( uint8_t addr , uint8_t reg , uint32_t val , uint8_t size , uint32_t bus = 0 ) ;
bool I2cWrite ( uint8_t addr , uint8_t reg , uint32_t val , uint8_t size , uint32_t bus )
# else
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
bool I2cWrite ( uint8_t addr , uint8_t reg , uint32_t val , uint8_t size )
2021-03-13 21:42:24 +00:00
# endif
2017-11-07 14:57:24 +00:00
{
2019-01-28 13:08:33 +00:00
uint8_t x = I2C_RETRY_COUNTER ;
2017-11-07 14:57:24 +00:00
2021-03-13 21:42:24 +00:00
# ifdef ESP32
TwoWire & myWire = ( bus = = 0 ) ? Wire : Wire1 ;
# else
TwoWire & myWire = Wire ;
# endif
2017-11-07 14:57:24 +00:00
do {
2021-03-13 21:42:24 +00:00
myWire . beginTransmission ( ( uint8_t ) addr ) ; // start transmission to device
myWire . write ( reg ) ; // sends register address to write to
2017-11-28 20:57:35 +00:00
uint8_t bytes = size ;
while ( bytes - - ) {
2021-03-13 21:42:24 +00:00
myWire . write ( ( val > > ( 8 * bytes ) ) & 0xFF ) ; // write data
2017-11-28 20:57:35 +00:00
}
2017-11-07 14:57:24 +00:00
x - - ;
2021-03-13 21:42:24 +00:00
} while ( myWire . endTransmission ( true ) ! = 0 & & x ! = 0 ) ; // end transmission
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
return ( x ) ;
2017-11-07 14:57:24 +00:00
}
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
bool I2cWrite8 ( uint8_t addr , uint8_t reg , uint16_t val )
2017-01-28 13:41:01 +00:00
{
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
return I2cWrite ( addr , reg , val , 1 ) ;
2017-11-11 11:33:30 +00:00
}
bool I2cWrite16 ( uint8_t addr , uint8_t reg , uint16_t val )
{
v5.9.1j - Add Dual R2, Rewrite DS18x20 and fixes
5.9.1j
* Revert changes to xsns_05_ds18x20.ino and rename to
xsns_05_ds18x20_legacy.ino still needing library OneWire and providing
legacy JSON message:
*
"DS18x20":{"DS1":{"Type":"DS18B20","Address":"284CC48E04000079","Temperature":19.5},"DS2":{"Type":"DS18B20","Address":"283AC28304000052","Temperature":19.6}}
* Add new xdrv_05_ds18x20.ino free from library OneWire and add the
following features:
* Add support for DS1822
* Add forced setting of
12-bit resolution for selected device types (#1222)
* Add read
temperature retry counter (#1215)
* Fix lost sensors by performing
sensor probe at restart only thereby removing dynamic sensor probe
(#1215)
* Fix sensor address sorting using ascending sort on sensor
type followed by sensor address
* Rewrite JSON resulting in shorter
message allowing more sensors in default firmware image:
*
"DS18B20-1":{"Id":"00000483C23A","Temperature":19.5},"DS18B20-2":{"Id":"0000048EC44C","Temperature":19.6}
* Add additional define in user_config.h to select either single sensor
(defines disabled), new multi sensor (USE_DS18X20) or legacy multi
sensor (USE_DS18X20_LEGACY)
* Add support for Sonoff Dual R2 (#1249)
*
Fix ADS1115 detection (#1258)
2017-11-27 16:46:51 +00:00
return I2cWrite ( addr , reg , val , 2 ) ;
2017-01-28 13:41:01 +00:00
}
2018-07-04 17:41:00 +01:00
int8_t I2cReadBuffer ( uint8_t addr , uint8_t reg , uint8_t * reg_data , uint16_t len )
{
Wire . beginTransmission ( ( uint8_t ) addr ) ;
Wire . write ( ( uint8_t ) reg ) ;
Wire . endTransmission ( ) ;
2019-01-28 13:08:33 +00:00
if ( len ! = Wire . requestFrom ( ( uint8_t ) addr , ( uint8_t ) len ) ) {
2018-07-04 17:41:00 +01:00
return 1 ;
}
while ( len - - ) {
* reg_data = ( uint8_t ) Wire . read ( ) ;
reg_data + + ;
}
return 0 ;
}
int8_t I2cWriteBuffer ( uint8_t addr , uint8_t reg , uint8_t * reg_data , uint16_t len )
{
Wire . beginTransmission ( ( uint8_t ) addr ) ;
Wire . write ( ( uint8_t ) reg ) ;
while ( len - - ) {
Wire . write ( * reg_data ) ;
reg_data + + ;
}
Wire . endTransmission ( ) ;
return 0 ;
}
2021-05-23 15:50:17 +01:00
void I2cScan ( uint32_t bus = 0 ) ;
void I2cScan ( uint32_t bus ) {
2018-09-29 11:34:24 +01:00
// Return error codes defined in twi.h and core_esp8266_si2c.c
// I2C_OK 0
// I2C_SCL_HELD_LOW 1 = SCL held low by another device, no procedure available to recover
2020-06-18 15:05:55 +01:00
// I2C_SCL_HELD_LOW_AFTER_READ 2 = I2C bus error. SCL held low beyond client clock stretch time
// I2C_SDA_HELD_LOW 3 = I2C bus error. SDA line held low by client/another_master after n bits
2018-09-29 11:34:24 +01:00
// I2C_SDA_HELD_LOW_AFTER_INIT 4 = line busy. SDA again held low by another device. 2nd master?
2019-01-28 13:08:33 +00:00
uint8_t error = 0 ;
uint8_t address = 0 ;
uint8_t any = 0 ;
2017-01-28 13:41:01 +00:00
2021-05-23 15:50:17 +01:00
Response_P ( PSTR ( " { \" " D_CMND_I2CSCAN " \" : \" " D_JSON_I2CSCAN_DEVICES_FOUND_AT ) ) ;
2017-01-28 13:41:01 +00:00
for ( address = 1 ; address < = 127 ; address + + ) {
2021-03-10 21:20:21 +00:00
# ifdef ESP32
TwoWire & myWire = ( bus = = 0 ) ? Wire : Wire1 ;
# else
TwoWire & myWire = Wire ;
# endif
myWire . beginTransmission ( address ) ;
error = myWire . endTransmission ( ) ;
2017-04-25 17:24:42 +01:00
if ( 0 = = error ) {
2017-01-28 13:41:01 +00:00
any = 1 ;
2021-05-23 15:50:17 +01:00
ResponseAppend_P ( PSTR ( " 0x%02x " ) , address ) ;
2017-01-28 13:41:01 +00:00
}
2018-09-29 11:34:24 +01:00
else if ( error ! = 2 ) { // Seems to happen anyway using this scan
any = 2 ;
2021-05-23 15:50:17 +01:00
Response_P ( PSTR ( " { \" " D_CMND_I2CSCAN " \" : \" Error %d at 0x%02x " ) , error , address ) ;
2018-09-29 11:34:24 +01:00
break ;
2017-04-25 17:24:42 +01:00
}
2017-01-28 13:41:01 +00:00
}
if ( any ) {
2021-05-23 15:50:17 +01:00
ResponseAppend_P ( PSTR ( " \" } " ) ) ;
2018-09-29 11:34:24 +01:00
}
else {
2021-05-23 15:50:17 +01:00
Response_P ( PSTR ( " { \" " D_CMND_I2CSCAN " \" : \" " D_JSON_I2CSCAN_NO_DEVICES_FOUND " \" } " ) ) ;
2017-01-28 13:41:01 +00:00
}
}
2017-10-25 13:27:30 +01:00
2019-11-07 15:56:05 +00:00
void I2cResetActive ( uint32_t addr , uint32_t count = 1 )
{
addr & = 0x7F ; // Max I2C address is 127
count & = 0x7F ; // Max 4 x 32 bits available
while ( count - - & & ( addr < 128 ) ) {
i2c_active [ addr / 32 ] & = ~ ( 1 < < ( addr % 32 ) ) ;
addr + + ;
}
2021-01-23 15:26:23 +00:00
// AddLog(LOG_LEVEL_DEBUG, PSTR("I2C: Active %08X,%08X,%08X,%08X"), i2c_active[0], i2c_active[1], i2c_active[2], i2c_active[3]);
2019-11-07 15:56:05 +00:00
}
2019-09-29 10:52:22 +01:00
void I2cSetActive ( uint32_t addr , uint32_t count = 1 )
{
2019-10-01 15:21:39 +01:00
addr & = 0x7F ; // Max I2C address is 127
count & = 0x7F ; // Max 4 x 32 bits available
2019-09-29 10:52:22 +01:00
while ( count - - & & ( addr < 128 ) ) {
i2c_active [ addr / 32 ] | = ( 1 < < ( addr % 32 ) ) ;
addr + + ;
}
2021-01-23 15:26:23 +00:00
// AddLog(LOG_LEVEL_DEBUG, PSTR("I2C: Active %08X,%08X,%08X,%08X"), i2c_active[0], i2c_active[1], i2c_active[2], i2c_active[3]);
2019-09-29 10:52:22 +01:00
}
2021-03-15 20:06:50 +00:00
void I2cSetActiveFound ( uint32_t addr , const char * types , uint32_t bus = 0 ) ;
void I2cSetActiveFound ( uint32_t addr , const char * types , uint32_t bus )
2019-11-09 17:34:22 +00:00
{
I2cSetActive ( addr ) ;
2021-03-15 20:06:50 +00:00
# ifdef ESP32
if ( 0 = = bus ) {
AddLog ( LOG_LEVEL_INFO , S_LOG_I2C_FOUND_AT , types , addr ) ;
} else {
AddLog ( LOG_LEVEL_INFO , S_LOG_I2C_FOUND_AT_PORT , types , addr , bus ) ;
}
# else
2021-01-23 15:26:23 +00:00
AddLog ( LOG_LEVEL_INFO , S_LOG_I2C_FOUND_AT , types , addr ) ;
2021-03-15 20:06:50 +00:00
# endif // ESP32
2019-11-09 17:34:22 +00:00
}
2019-09-29 10:52:22 +01:00
bool I2cActive ( uint32_t addr )
{
2019-10-01 15:21:39 +01:00
addr & = 0x7F ; // Max I2C address is 127
2019-09-29 10:52:22 +01:00
if ( i2c_active [ addr / 32 ] & ( 1 < < ( addr % 32 ) ) ) {
return true ;
}
return false ;
}
2021-03-15 20:06:50 +00:00
# ifdef ESP32
bool I2cSetDevice ( uint32_t addr , uint32_t bus = 0 ) ;
bool I2cSetDevice ( uint32_t addr , uint32_t bus )
# else
2019-11-07 15:56:05 +00:00
bool I2cSetDevice ( uint32_t addr )
2021-03-15 20:06:50 +00:00
# endif
2017-10-25 13:27:30 +01:00
{
2021-03-15 20:06:50 +00:00
# ifdef ESP32
TwoWire & myWire = ( bus = = 0 ) ? Wire : Wire1 ;
# else
TwoWire & myWire = Wire ;
# endif
2019-10-01 15:21:39 +01:00
addr & = 0x7F ; // Max I2C address is 127
2019-09-29 10:52:22 +01:00
if ( I2cActive ( addr ) ) {
return false ; // If already active report as not present;
}
2021-03-15 20:06:50 +00:00
myWire . beginTransmission ( ( uint8_t ) addr ) ;
return ( 0 = = myWire . endTransmission ( ) ) ;
2019-11-06 16:48:38 +00:00
}
2017-01-28 13:41:01 +00:00
# endif // USE_I2C
/*********************************************************************************************\
* Syslog
2017-11-04 15:36:51 +00:00
*
2017-11-03 17:07:25 +00:00
* Example :
2021-01-23 15:26:23 +00:00
* AddLog ( LOG_LEVEL_DEBUG , PSTR ( D_LOG_LOG " Any value %d " ) , value ) ;
2017-11-03 17:07:25 +00:00
*
2017-01-28 13:41:01 +00:00
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
2019-07-28 12:54:52 +01:00
void SetSeriallog ( uint32_t loglevel )
2018-03-18 12:47:30 +00:00
{
2021-06-11 17:14:12 +01:00
Settings - > seriallog_level = loglevel ;
2020-10-30 11:29:48 +00:00
TasmotaGlobal . seriallog_level = loglevel ;
2020-10-29 12:37:09 +00:00
TasmotaGlobal . seriallog_timer = 0 ;
2018-03-18 12:47:30 +00:00
}
2019-07-28 12:54:52 +01:00
void SetSyslog ( uint32_t loglevel )
2019-06-03 16:05:09 +01:00
{
2021-06-11 17:14:12 +01:00
Settings - > syslog_level = loglevel ;
2020-10-30 11:29:48 +00:00
TasmotaGlobal . syslog_level = loglevel ;
2020-10-29 12:37:09 +00:00
TasmotaGlobal . syslog_timer = 0 ;
2019-06-03 16:05:09 +01:00
}
2020-12-23 15:35:46 +00:00
void SyslogAsync ( bool refresh ) {
2020-12-19 16:29:14 +00:00
static IPAddress syslog_host_addr ; // Syslog host IP address
static uint32_t syslog_host_hash = 0 ; // Syslog host name hash
static uint32_t index = 1 ;
2020-12-18 14:37:20 +00:00
2021-03-18 08:27:46 +00:00
if ( ! TasmotaGlobal . syslog_level | | TasmotaGlobal . global_state . network_down ) { return ; }
2020-12-22 14:26:07 +00:00
if ( refresh & & ! NeedLogRefresh ( TasmotaGlobal . syslog_level , index ) ) { return ; }
2020-12-19 16:29:14 +00:00
char * line ;
size_t len ;
while ( GetLog ( TasmotaGlobal . syslog_level , & index , & line , & len ) ) {
2020-12-23 15:35:46 +00:00
// 00:00:02.096 HTP: Web server active on wemos5 with IP address 192.168.2.172
// HTP: Web server active on wemos5 with IP address 192.168.2.172
2020-12-20 16:15:22 +00:00
uint32_t mxtime = strchr ( line , ' ' ) - line + 1 ; // Remove mxtime
if ( mxtime > 0 ) {
2020-12-23 15:35:46 +00:00
uint32_t current_hash = GetHash ( SettingsText ( SET_SYSLOG_HOST ) , strlen ( SettingsText ( SET_SYSLOG_HOST ) ) ) ;
if ( syslog_host_hash ! = current_hash ) {
2021-03-16 21:28:39 +00:00
IPAddress temp_syslog_host_addr ;
2021-03-17 18:45:29 +00:00
int ok = WiFi . hostByName ( SettingsText ( SET_SYSLOG_HOST ) , temp_syslog_host_addr ) ; // If sleep enabled this might result in exception so try to do it once using hash
if ( ! ok | | ( 0xFFFFFFFF = = ( uint32_t ) temp_syslog_host_addr ) ) { // 255.255.255.255 is assumed a DNS problem
TasmotaGlobal . syslog_level = 0 ;
TasmotaGlobal . syslog_timer = SYSLOG_TIMER ;
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_APPLICATION " Loghost DNS resolve failed (%s). " D_RETRY_IN " %d " D_UNIT_SECOND ) , SettingsText ( SET_SYSLOG_HOST ) , SYSLOG_TIMER ) ;
return ;
}
2020-12-23 15:35:46 +00:00
syslog_host_hash = current_hash ;
2021-03-16 21:28:39 +00:00
syslog_host_addr = temp_syslog_host_addr ;
2020-12-23 15:35:46 +00:00
}
2021-06-11 17:14:12 +01:00
if ( ! PortUdp . beginPacket ( syslog_host_addr , Settings - > syslog_port ) ) {
2020-12-23 15:35:46 +00:00
TasmotaGlobal . syslog_level = 0 ;
TasmotaGlobal . syslog_timer = SYSLOG_TIMER ;
2021-01-23 15:26:23 +00:00
AddLog ( LOG_LEVEL_INFO , PSTR ( D_LOG_APPLICATION D_SYSLOG_HOST_NOT_FOUND " . " D_RETRY_IN " %d " D_UNIT_SECOND ) , SYSLOG_TIMER ) ;
2020-12-24 10:42:59 +00:00
return ;
2020-12-23 15:35:46 +00:00
}
2021-05-30 17:47:39 +01:00
2021-05-31 13:23:12 +01:00
char header [ 64 ] ;
snprintf_P ( header , sizeof ( header ) , PSTR ( " %s ESP- " ) , NetworkHostname ( ) ) ;
char * line_start = line + mxtime ;
# ifdef ESP8266
// Packets over 1460 bytes are not send
uint32_t line_len ;
int32_t log_len = len - mxtime - 1 ;
while ( log_len > 0 ) {
PortUdp . write ( header ) ;
line_len = ( log_len > 1460 ) ? 1460 : log_len ;
PortUdp . write ( ( uint8_t * ) line_start , line_len ) ;
PortUdp . endPacket ( ) ;
log_len - = 1460 ;
line_start + = 1460 ;
}
# else
PortUdp . write ( header ) ;
PortUdp . write ( ( uint8_t * ) line_start , len - mxtime - 1 ) ;
2020-12-24 10:42:59 +00:00
PortUdp . endPacket ( ) ;
2021-05-31 13:23:12 +01:00
# endif
2020-12-24 10:42:59 +00:00
delay ( 1 ) ; // Add time for UDP handling (#5512)
2020-12-18 14:37:20 +00:00
}
2020-12-19 16:29:14 +00:00
}
}
2020-12-22 14:26:07 +00:00
bool NeedLogRefresh ( uint32_t req_loglevel , uint32_t index ) {
2021-06-11 15:02:49 +01:00
if ( ! TasmotaGlobal . log_buffer ) { return false ; } // Leave now if there is no buffer available
2021-01-01 16:04:36 +00:00
# ifdef ESP32
// this takes the mutex, and will be release when the class is destroyed -
2020-12-31 11:36:35 +00:00
// i.e. when the functon leaves You CAN call mutex.give() to leave early.
2021-09-06 18:52:20 +01:00
TasAutoMutex mutex ( ( SemaphoreHandle_t * ) & TasmotaGlobal . log_buffer_mutex ) ;
2021-01-01 16:04:36 +00:00
# endif // ESP32
2020-12-31 11:36:35 +00:00
2020-12-22 14:26:07 +00:00
// Skip initial buffer fill
2021-06-09 16:24:28 +01:00
if ( strlen ( TasmotaGlobal . log_buffer ) < LOG_BUFFER_SIZE / 2 ) { return false ; }
2020-12-22 14:26:07 +00:00
char * line ;
size_t len ;
if ( ! GetLog ( req_loglevel , & index , & line , & len ) ) { return false ; }
return ( ( line - TasmotaGlobal . log_buffer ) < LOG_BUFFER_SIZE / 4 ) ;
}
2020-12-19 16:29:14 +00:00
bool GetLog ( uint32_t req_loglevel , uint32_t * index_p , char * * entry_pp , size_t * len_p ) {
2021-06-11 15:02:49 +01:00
if ( ! TasmotaGlobal . log_buffer ) { return false ; } // Leave now if there is no buffer available
if ( TasmotaGlobal . uptime < 3 ) { return false ; } // Allow time to setup correct log level
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uint32_t index = * index_p ;
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if ( ! req_loglevel | | ( index = = TasmotaGlobal . log_buffer_pointer ) ) { return false ; }
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# ifdef ESP32
// this takes the mutex, and will be release when the class is destroyed -
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// i.e. when the functon leaves You CAN call mutex.give() to leave early.
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TasAutoMutex mutex ( ( SemaphoreHandle_t * ) & TasmotaGlobal . log_buffer_mutex ) ;
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# endif // ESP32
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if ( ! index ) { // Dump all
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index = TasmotaGlobal . log_buffer [ 0 ] ;
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}
do {
size_t len = 0 ;
uint32_t loglevel = 0 ;
char * entry_p = TasmotaGlobal . log_buffer ;
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do {
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uint32_t cur_idx = * entry_p ;
entry_p + + ;
size_t tmp = strchrspn ( entry_p , ' \1 ' ) ;
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tmp + + ; // Skip terminating '\1'
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if ( cur_idx = = index ) { // Found the requested entry
loglevel = * entry_p - ' 0 ' ;
entry_p + + ; // Skip loglevel
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len = tmp - 1 ;
break ;
}
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entry_p + = tmp ;
} while ( entry_p < TasmotaGlobal . log_buffer + LOG_BUFFER_SIZE & & * entry_p ! = ' \0 ' ) ;
index + + ;
if ( index > 255 ) { index = 1 ; } // Skip 0 as it is not allowed
* index_p = index ;
if ( ( len > 0 ) & &
( loglevel < = req_loglevel ) & &
( TasmotaGlobal . masterlog_level < = req_loglevel ) ) {
* entry_pp = entry_p ;
* len_p = len ;
return true ;
}
delay ( 0 ) ;
} while ( index ! = TasmotaGlobal . log_buffer_pointer ) ;
return false ;
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}
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void AddLogData ( uint32_t loglevel , const char * log_data , const char * log_data_payload = nullptr , const char * log_data_retained = nullptr ) {
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if ( ! TasmotaGlobal . enable_logging ) { return ; }
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// Store log_data in buffer
// To lower heap usage log_data_payload may contain the payload data from MqttPublishPayload()
// and log_data_retained may contain optional retained message from MqttPublishPayload()
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# ifdef ESP32
// this takes the mutex, and will be release when the class is destroyed -
// i.e. when the functon leaves You CAN call mutex.give() to leave early.
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TasAutoMutex mutex ( ( SemaphoreHandle_t * ) & TasmotaGlobal . log_buffer_mutex ) ;
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# endif // ESP32
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char mxtime [ 14 ] ; // "13:45:21.999 "
snprintf_P ( mxtime , sizeof ( mxtime ) , PSTR ( " %02d " D_HOUR_MINUTE_SEPARATOR " %02d " D_MINUTE_SECOND_SEPARATOR " %02d.%03d " ) , RtcTime . hour , RtcTime . minute , RtcTime . second , RtcMillis ( ) ) ;
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char empty [ 2 ] = { 0 } ;
if ( ! log_data_payload ) { log_data_payload = empty ; }
if ( ! log_data_retained ) { log_data_retained = empty ; }
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if ( ( loglevel < = TasmotaGlobal . seriallog_level ) & &
( TasmotaGlobal . masterlog_level < = TasmotaGlobal . seriallog_level ) ) {
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Serial . printf ( " %s%s%s%s \r \n " , mxtime , log_data , log_data_payload , log_data_retained ) ;
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}
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if ( ! TasmotaGlobal . log_buffer ) { return ; } // Leave now if there is no buffer available
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uint32_t highest_loglevel = Settings - > weblog_level ;
if ( Settings - > mqttlog_level > highest_loglevel ) { highest_loglevel = Settings - > mqttlog_level ; }
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if ( TasmotaGlobal . syslog_level > highest_loglevel ) { highest_loglevel = TasmotaGlobal . syslog_level ; }
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if ( TasmotaGlobal . templog_level > highest_loglevel ) { highest_loglevel = TasmotaGlobal . templog_level ; }
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if ( TasmotaGlobal . uptime < 3 ) { highest_loglevel = LOG_LEVEL_DEBUG_MORE ; } // Log all before setup correct log level
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if ( ( loglevel < = highest_loglevel ) & & // Log only when needed
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( TasmotaGlobal . masterlog_level < = highest_loglevel ) ) {
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// Delimited, zero-terminated buffer of log lines.
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// Each entry has this format: [index][loglevel][log data]['\1']
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// Truncate log messages longer than MAX_LOGSZ which is the log buffer size minus 64 spare
uint32_t log_data_len = strlen ( log_data ) + strlen ( log_data_payload ) + strlen ( log_data_retained ) ;
char too_long [ TOPSZ ] ;
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if ( log_data_len > MAX_LOGSZ ) {
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snprintf_P ( too_long , sizeof ( too_long ) - 20 , PSTR ( " %s%s " ) , log_data , log_data_payload ) ; // 20 = strlen("... 123456 truncated")
snprintf_P ( too_long , sizeof ( too_long ) , PSTR ( " %s... %d truncated " ) , too_long , log_data_len ) ;
log_data = too_long ;
log_data_payload = empty ;
log_data_retained = empty ;
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}
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TasmotaGlobal . log_buffer_pointer & = 0xFF ;
if ( ! TasmotaGlobal . log_buffer_pointer ) {
TasmotaGlobal . log_buffer_pointer + + ; // Index 0 is not allowed as it is the end of char string
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}
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while ( TasmotaGlobal . log_buffer_pointer = = TasmotaGlobal . log_buffer [ 0 ] | | // If log already holds the next index, remove it
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strlen ( TasmotaGlobal . log_buffer ) + strlen ( log_data ) + strlen ( log_data_payload ) + strlen ( log_data_retained ) + strlen ( mxtime ) + 4 > LOG_BUFFER_SIZE ) // 4 = log_buffer_pointer + '\1' + '\0'
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{
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char * it = TasmotaGlobal . log_buffer ;
it + + ; // Skip log_buffer_pointer
it + = strchrspn ( it , ' \1 ' ) ; // Skip log line
it + + ; // Skip delimiting "\1"
memmove ( TasmotaGlobal . log_buffer , it , LOG_BUFFER_SIZE - ( it - TasmotaGlobal . log_buffer ) ) ; // Move buffer forward to remove oldest log line
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}
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snprintf_P ( TasmotaGlobal . log_buffer , LOG_BUFFER_SIZE , PSTR ( " %s%c%c%s%s%s%s \1 " ) ,
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TasmotaGlobal . log_buffer , TasmotaGlobal . log_buffer_pointer + + , ' 0 ' + loglevel , mxtime , log_data , log_data_payload , log_data_retained ) ;
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TasmotaGlobal . log_buffer_pointer & = 0xFF ;
if ( ! TasmotaGlobal . log_buffer_pointer ) {
TasmotaGlobal . log_buffer_pointer + + ; // Index 0 is not allowed as it is the end of char string
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}
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}
}
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void AddLog ( uint32_t loglevel , PGM_P formatP , . . . ) {
va_list arg ;
va_start ( arg , formatP ) ;
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char * log_data = ext_vsnprintf_malloc_P ( formatP , arg ) ;
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va_end ( arg ) ;
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if ( log_data = = nullptr ) { return ; }
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AddLogData ( loglevel , log_data ) ;
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free ( log_data ) ;
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}
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void AddLogBuffer ( uint32_t loglevel , uint8_t * buffer , uint32_t count )
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{
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char hex_char [ ( count * 3 ) + 2 ] ;
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AddLog ( loglevel , PSTR ( " DMP: %s " ) , ToHex_P ( buffer , count , hex_char , sizeof ( hex_char ) , ' ' ) ) ;
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}
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void AddLogSerial ( uint32_t loglevel )
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{
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AddLogBuffer ( loglevel , ( uint8_t * ) TasmotaGlobal . serial_in_buffer , TasmotaGlobal . serial_in_byte_counter ) ;
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}
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void AddLogMissed ( const char * sensor , uint32_t misses )
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{
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AddLog ( LOG_LEVEL_DEBUG , PSTR ( " SNS: %s missed %d " ) , sensor , SENSOR_MAX_MISS - misses ) ;
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}
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void AddLogBufferSize ( uint32_t loglevel , uint8_t * buffer , uint32_t count , uint32_t size ) {
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char log_data [ 4 + ( count * size * 3 ) ] ;
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snprintf_P ( log_data , sizeof ( log_data ) , PSTR ( " DMP: " ) ) ;
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for ( uint32_t i = 0 ; i < count ; i + + ) {
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if ( 1 = = size ) { // uint8_t
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snprintf_P ( log_data , sizeof ( log_data ) , PSTR ( " %s %02X " ) , log_data , * ( buffer ) ) ;
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} else { // uint16_t
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snprintf_P ( log_data , sizeof ( log_data ) , PSTR ( " %s %02X%02X " ) , log_data , * ( buffer + 1 ) , * ( buffer ) ) ;
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}
buffer + = size ;
}
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AddLogData ( loglevel , log_data ) ;
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}
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void AddLogSpi ( bool hardware , uint32_t clk , uint32_t mosi , uint32_t miso ) {
// Needs optimization
uint32_t enabled = ( hardware ) ? TasmotaGlobal . spi_enabled : TasmotaGlobal . soft_spi_enabled ;
switch ( enabled ) {
case SPI_MOSI :
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AddLog ( LOG_LEVEL_INFO , PSTR ( " SPI: %s using GPIO%02d(CLK) and GPIO%02d(MOSI) " ) ,
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( hardware ) ? PSTR ( " Hardware " ) : PSTR ( " Software " ) , clk , mosi ) ;
break ;
case SPI_MISO :
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AddLog ( LOG_LEVEL_INFO , PSTR ( " SPI: %s using GPIO%02d(CLK) and GPIO%02d(MISO) " ) ,
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( hardware ) ? PSTR ( " Hardware " ) : PSTR ( " Software " ) , clk , miso ) ;
break ;
case SPI_MOSI_MISO :
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AddLog ( LOG_LEVEL_INFO , PSTR ( " SPI: %s using GPIO%02d(CLK), GPIO%02d(MOSI) and GPIO%02d(MISO) " ) ,
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( hardware ) ? PSTR ( " Hardware " ) : PSTR ( " Software " ) , clk , mosi , miso ) ;
break ;
}
}
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/*********************************************************************************************\
* Uncompress static PROGMEM strings
\ * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
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# ifdef USE_UNISHOX_COMPRESSION
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# include <unishox.h>
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Unishox compressor ;
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// New variant where you provide the String object yourself
int32_t DecompressNoAlloc ( const char * compressed , size_t uncompressed_size , String & content ) {
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uncompressed_size + = 2 ; // take a security margin
// We use a nasty trick here. To avoid allocating twice the buffer,
// we first extend the buffer of the String object to the target size (maybe overshooting by 7 bytes)
// then we decompress in this buffer,
// and finally assign the raw string to the String, which happens to work: String uses memmove(), so overlapping works
content . reserve ( uncompressed_size ) ;
char * buffer = content . begin ( ) ;
int32_t len = compressor . unishox_decompress ( compressed , strlen_P ( compressed ) , buffer , uncompressed_size ) ;
if ( len > 0 ) {
buffer [ len ] = 0 ; // terminate string with NULL
content = buffer ; // copy in place
}
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return len ;
}
String Decompress ( const char * compressed , size_t uncompressed_size ) {
String content ( " " ) ;
DecompressNoAlloc ( compressed , uncompressed_size , content ) ;
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return content ;
}
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# endif // USE_UNISHOX_COMPRESSION