Tasmota/tasmota/tasmota_xdrv_driver/xdrv_11_knx.ino

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/*
xdrv_11_knx.ino - KNX IP Protocol support for Tasmota
2021-01-01 12:44:04 +00:00
Copyright (C) 2021 Adrian Scillato (https://github.com/ascillato)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifdef USE_KNX
/*********************************************************************************************\
* KNX support
*
* Using libraries:
* ESP KNX IP library (https://github.com/envy/esp-knx-ip)
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Constants in tasmota.h
-----------------------
#define MAX_KNX_GA 10 Max number of KNX Group Addresses to read that can be set
#define MAX_KNX_CB 10 Max number of KNX Group Addresses to write that can be set
If you change MAX_KNX_CB you also have to change on the esp-knx-ip.h file the following:
#define MAX_CALLBACK_ASSIGNMENTS 10
#define MAX_CALLBACKS 10
Both to MAX_KNX_CB
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Variables in settings.h
-----------------------
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bool Settings->flag.knx_enabled Enable/Disable KNX Protocol
uint16_t Settings->knx_physsical_addr Physical KNX address of this device
uint8_t Settings->knx_GA_registered Number of group address to read
uint8_t Settings->knx_CB_registered Number of group address to write
uint16_t Settings->knx_GA_addr[MAX_KNX_GA] Group address to read
uint16_t Settings->knx_CB_addr[MAX_KNX_CB] Group address to write
uint8_t Settings->knx_GA_param[MAX_KNX_GA] Type of Input (relay changed, button pressed, sensor read)
uint8_t Settings->knx_CB_param[MAX_KNX_CB] Type of Output (set relay, toggle relay, reply sensor value)
\*********************************************************************************************/
#define XDRV_11 11
#include <esp-knx-ip.h> // KNX Library
bool knx_started = false;
address_t KNX_physs_addr; // Physical KNX address of this device
address_t KNX_addr; // KNX Address converter variable
#define KNX_Empty 255
#define TOGGLE_INHIBIT_TIME 15 // 15*50mseg = 750mseg (inhibit time for not toggling again relays by a KNX toggle command)
float last_temp;
float last_hum;
uint8_t toggle_inhibit;
typedef struct __device_parameters
{
uint8_t type; // PARAMETER_ID. Used as type of GA = relay, button, sensor, etc, (INPUTS)
// used when an action on device triggers a MSG to send on KNX
// Needed because this is the value that the ESP_KNX_IP library will pass as parameter
// to identify the action to perform when a MSG is received
bool show; // HARDWARE related. to identify if the parameter exists on the device.
bool last_state; // LAST_STATE of relays
callback_id_t CB_id; // ACTION_ID. To store the ID value of Registered_CB to the library.
// The ESP_KNX_IP requires to register the callbacks, and then, to assign an address to the registered callback
// So CB_id is needed to store the ID of the callback to then, assign multiple addresses to the same ID (callback)
// It is used as type of CB = set relay, toggle relay, reply sensor, etc, (OUTPUTS)
// used when a MSG receive KNX triggers an action on the device
// - Multiples address to the same callback (i.e. Set Relay 1 Status) are used on scenes for example
} device_parameters_t;
// device parameters (information that can be sent)
device_parameters_t device_param[] = {
{ 1, false, false, KNX_Empty }, // device_param[ 0] = Relay 1
{ 2, false, false, KNX_Empty }, // device_param[ 1] = Relay 2
{ 3, false, false, KNX_Empty }, // device_param[ 2] = Relay 3
{ 4, false, false, KNX_Empty }, // device_param[ 3] = Relay 4
{ 5, false, false, KNX_Empty }, // device_param[ 4] = Relay 5
{ 6, false, false, KNX_Empty }, // device_param[ 5] = Relay 6
{ 7, false, false, KNX_Empty }, // device_param[ 6] = Relay 7
{ 8, false, false, KNX_Empty }, // device_param[ 7] = Relay 8
{ 9, false, false, KNX_Empty }, // device_param[ 8] = Button 1
{ 10, false, false, KNX_Empty }, // device_param[ 9] = Button 2
{ 11, false, false, KNX_Empty }, // device_param[10] = Button 3
{ 12, false, false, KNX_Empty }, // device_param[11] = Button 4
{ 13, false, false, KNX_Empty }, // device_param[12] = Button 5
{ 14, false, false, KNX_Empty }, // device_param[13] = Button 6
{ 15, false, false, KNX_Empty }, // device_param[14] = Button 7
{ 16, false, false, KNX_Empty }, // device_param[15] = Button 8
{ KNX_TEMPERATURE, false, false, KNX_Empty }, // device_param[16] = Temperature
{ KNX_HUMIDITY , false, false, KNX_Empty }, // device_param[17] = humidity
{ KNX_ENERGY_VOLTAGE , false, false, KNX_Empty },
{ KNX_ENERGY_CURRENT , false, false, KNX_Empty },
{ KNX_ENERGY_POWER , false, false, KNX_Empty },
{ KNX_ENERGY_POWERFACTOR , false, false, KNX_Empty },
{ KNX_ENERGY_DAILY , false, false, KNX_Empty },
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{ KNX_ENERGY_YESTERDAY , false, false, KNX_Empty },
{ KNX_ENERGY_TOTAL , false, false, KNX_Empty },
{ KNX_SLOT1 , false, false, KNX_Empty },
{ KNX_SLOT2 , false, false, KNX_Empty },
{ KNX_SLOT3 , false, false, KNX_Empty },
{ KNX_SLOT4 , false, false, KNX_Empty },
{ KNX_SLOT5 , false, false, KNX_Empty },
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{ KNX_SCENE , false, false, KNX_Empty },
{ KNX_Empty, false, false, KNX_Empty}
};
// device parameters (information that can be sent)
const char * device_param_ga[] = {
D_TIMER_OUTPUT " 1", // Relay 1
D_TIMER_OUTPUT " 2", // Relay 2
D_TIMER_OUTPUT " 3", // Relay 3
D_TIMER_OUTPUT " 4", // Relay 4
D_TIMER_OUTPUT " 5", // Relay 5
D_TIMER_OUTPUT " 6", // Relay 6
D_TIMER_OUTPUT " 7", // Relay 7
D_TIMER_OUTPUT " 8", // Relay 8
D_SENSOR_BUTTON " 1", // Button 1
D_SENSOR_BUTTON " 2", // Button 2
D_SENSOR_BUTTON " 3", // Button 3
D_SENSOR_BUTTON " 4", // Button 4
D_SENSOR_BUTTON " 5", // Button 5
D_SENSOR_BUTTON " 6", // Button 6
D_SENSOR_BUTTON " 7", // Button 7
D_SENSOR_BUTTON " 8", // Button 8
D_TEMPERATURE , // Temperature
D_HUMIDITY , // Humidity
D_VOLTAGE ,
D_CURRENT ,
D_POWERUSAGE ,
D_POWER_FACTOR ,
D_ENERGY_TODAY ,
D_ENERGY_YESTERDAY ,
D_ENERGY_TOTAL ,
D_KNX_TX_SLOT " 1",
D_KNX_TX_SLOT " 2",
D_KNX_TX_SLOT " 3",
D_KNX_TX_SLOT " 4",
D_KNX_TX_SLOT " 5",
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D_KNX_TX_SCENE ,
nullptr
};
// device actions (posible actions to be performed on the device)
const char *device_param_cb[] = {
D_TIMER_OUTPUT " 1", // Set Relay 1 (1-On or 0-OFF)
D_TIMER_OUTPUT " 2",
D_TIMER_OUTPUT " 3",
D_TIMER_OUTPUT " 4",
D_TIMER_OUTPUT " 5",
D_TIMER_OUTPUT " 6",
D_TIMER_OUTPUT " 7",
D_TIMER_OUTPUT " 8",
D_TIMER_OUTPUT " 1 " D_BUTTON_TOGGLE, // Relay 1 Toggle (1 or 0 will toggle)
D_TIMER_OUTPUT " 2 " D_BUTTON_TOGGLE,
D_TIMER_OUTPUT " 3 " D_BUTTON_TOGGLE,
D_TIMER_OUTPUT " 4 " D_BUTTON_TOGGLE,
D_TIMER_OUTPUT " 5 " D_BUTTON_TOGGLE,
D_TIMER_OUTPUT " 6 " D_BUTTON_TOGGLE,
D_TIMER_OUTPUT " 7 " D_BUTTON_TOGGLE,
D_TIMER_OUTPUT " 8 " D_BUTTON_TOGGLE,
D_REPLY " " D_TEMPERATURE, // Reply Temperature
D_REPLY " " D_HUMIDITY, // Reply Humidity
D_REPLY " " D_VOLTAGE ,
D_REPLY " " D_CURRENT ,
D_REPLY " " D_POWERUSAGE ,
D_REPLY " " D_POWER_FACTOR ,
D_REPLY " " D_ENERGY_TODAY ,
D_REPLY " " D_ENERGY_YESTERDAY ,
D_REPLY " " D_ENERGY_TOTAL ,
D_KNX_RX_SLOT " 1",
D_KNX_RX_SLOT " 2",
D_KNX_RX_SLOT " 3",
D_KNX_RX_SLOT " 4",
D_KNX_RX_SLOT " 5",
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D_KNX_RX_SCENE ,
nullptr
};
// Commands
#define D_PRFX_KNX "Knx"
#define D_CMND_KNXTXCMND "Tx_Cmnd"
#define D_CMND_KNXTXVAL "Tx_Val"
#define D_CMND_KNX_ENABLED "_Enabled"
#define D_CMND_KNX_ENHANCED "_Enhanced"
#define D_CMND_KNX_PA "_PA"
#define D_CMND_KNX_GA "_GA"
#define D_CMND_KNX_CB "_CB"
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#define D_CMND_KNXTXSCENE "Tx_Scene"
const char kKnxCommands[] PROGMEM = D_PRFX_KNX "|" // Prefix
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D_CMND_KNXTXCMND "|" D_CMND_KNXTXVAL "|" D_CMND_KNX_ENABLED "|" D_CMND_KNX_ENHANCED "|" D_CMND_KNX_PA "|" D_CMND_KNX_GA "|" D_CMND_KNX_CB "|" D_CMND_KNXTXSCENE ;
void (* const KnxCommand[])(void) PROGMEM = {
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&CmndKnxTxCmnd, &CmndKnxTxVal, &CmndKnxEnabled, &CmndKnxEnhanced, &CmndKnxPa, &CmndKnxGa, &CmndKnxCb, &CmndKnxTxScene };
uint8_t KNX_GA_Search( uint8_t param, uint8_t start = 0 )
{
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for (uint32_t i = start; i < Settings->knx_GA_registered; ++i)
{
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if ( Settings->knx_GA_param[i] == param )
{
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if ( Settings->knx_GA_addr[i] != 0 ) // Relay has group address set? GA=0/0/0 can not be used as KNX address, so it is used here as a: not set value
{
if ( i >= start ) { return i; }
}
}
}
return KNX_Empty;
}
uint8_t KNX_CB_Search( uint8_t param, uint8_t start = 0 )
{
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for (uint32_t i = start; i < Settings->knx_CB_registered; ++i)
{
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if ( Settings->knx_CB_param[i] == param )
{
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if ( Settings->knx_CB_addr[i] != 0 )
{
if ( i >= start ) { return i; }
}
}
}
return KNX_Empty;
}
void KNX_ADD_GA( uint8_t GAop, uint8_t GA_FNUM, uint8_t GA_AREA, uint8_t GA_FDEF )
{
// Check if all GA were assigned. If yes-> return
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if ( Settings->knx_GA_registered >= MAX_KNX_GA ) { return; }
if ( GA_FNUM == 0 && GA_AREA == 0 && GA_FDEF == 0 ) { return; }
// Assign a GA to that address
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Settings->knx_GA_param[Settings->knx_GA_registered] = GAop;
KNX_addr.ga.area = GA_FNUM;
KNX_addr.ga.line = GA_AREA;
KNX_addr.ga.member = GA_FDEF;
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Settings->knx_GA_addr[Settings->knx_GA_registered] = KNX_addr.value;
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Settings->knx_GA_registered++;
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX D_ADD " GA #%d: %s " D_TO " %d/%d/%d"),
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Settings->knx_GA_registered,
device_param_ga[GAop-1],
GA_FNUM, GA_AREA, GA_FDEF );
}
void KNX_DEL_GA( uint8_t GAnum )
{
uint8_t dest_offset = 0;
uint8_t src_offset = 0;
uint8_t len = 0;
// Delete GA
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Settings->knx_GA_param[GAnum-1] = 0;
if (GAnum == 1)
{
// start of array, so delete first entry
src_offset = 1;
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// Settings->knx_GA_registered will be 1 in case of only one entry
// Settings->knx_GA_registered will be 2 in case of two entries, etc..
// so only copy anything, if there is it at least more then one element
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len = (Settings->knx_GA_registered - 1);
}
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else if (GAnum == Settings->knx_GA_registered)
{
// last element, don't do anything, simply decrement counter
}
else
{
// somewhere in the middle
// need to calc offsets
// skip all prev elements
dest_offset = GAnum -1 ; // GAnum -1 is equal to how many element are in front of it
src_offset = dest_offset + 1; // start after the current element
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len = (Settings->knx_GA_registered - GAnum);
}
if (len > 0)
{
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memmove(Settings->knx_GA_param + dest_offset, Settings->knx_GA_param + src_offset, len * sizeof(uint8_t));
memmove(Settings->knx_GA_addr + dest_offset, Settings->knx_GA_addr + src_offset, len * sizeof(uint16_t));
}
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Settings->knx_GA_registered--;
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX D_DELETE " GA #%d"),
GAnum );
}
void KNX_ADD_CB( uint8_t CBop, uint8_t CB_FNUM, uint8_t CB_AREA, uint8_t CB_FDEF )
{
// Check if all callbacks were assigned. If yes-> return
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if ( Settings->knx_CB_registered >= MAX_KNX_CB ) { return; }
if ( CB_FNUM == 0 && CB_AREA == 0 && CB_FDEF == 0 ) { return; }
// Check if a CB for CBop was registered on the ESP-KNX-IP Library
if ( device_param[CBop-1].CB_id == KNX_Empty )
{
// if no, register the CB for CBop
device_param[CBop-1].CB_id = knx.callback_register("", KNX_CB_Action, &device_param[CBop-1]);
// KNX IP Library requires a parameter
// to identify which action was requested on the KNX network
// to be performed on this device (set relay, etc.)
// Is going to be used device_param[j].type that stores the type number (1: relay 1, etc)
}
// Assign a callback to CB address
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Settings->knx_CB_param[Settings->knx_CB_registered] = CBop;
KNX_addr.ga.area = CB_FNUM;
KNX_addr.ga.line = CB_AREA;
KNX_addr.ga.member = CB_FDEF;
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Settings->knx_CB_addr[Settings->knx_CB_registered] = KNX_addr.value;
knx.callback_assign( device_param[CBop-1].CB_id, KNX_addr );
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Settings->knx_CB_registered++;
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX D_ADD " CB #%d: %d/%d/%d " D_TO " %s"),
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Settings->knx_CB_registered,
CB_FNUM, CB_AREA, CB_FDEF,
device_param_cb[CBop-1] );
}
void KNX_DEL_CB( uint8_t CBnum )
{
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uint8_t oldparam = Settings->knx_CB_param[CBnum-1];
uint8_t dest_offset = 0;
uint8_t src_offset = 0;
uint8_t len = 0;
// Delete assigment
knx.callback_unassign(CBnum-1);
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Settings->knx_CB_param[CBnum-1] = 0;
if (CBnum == 1)
{
// start of array, so delete first entry
src_offset = 1;
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// Settings->knx_CB_registered will be 1 in case of only one entry
// Settings->knx_CB_registered will be 2 in case of two entries, etc..
// so only copy anything, if there is it at least more then one element
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len = (Settings->knx_CB_registered - 1);
}
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else if (CBnum == Settings->knx_CB_registered)
{
// last element, don't do anything, simply decrement counter
}
else
{
// somewhere in the middle
// need to calc offsets
// skip all prev elements
dest_offset = CBnum -1 ; // GAnum -1 is equal to how many element are in front of it
src_offset = dest_offset + 1; // start after the current element
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len = (Settings->knx_CB_registered - CBnum);
}
if (len > 0)
{
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memmove(Settings->knx_CB_param + dest_offset, Settings->knx_CB_param + src_offset, len * sizeof(uint8_t));
memmove(Settings->knx_CB_addr + dest_offset, Settings->knx_CB_addr + src_offset, len * sizeof(uint16_t));
}
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Settings->knx_CB_registered--;
// Check if there is no other assigment to that callback. If there is not. delete that callback register
if ( KNX_CB_Search( oldparam ) == KNX_Empty ) {
knx.callback_deregister( device_param[oldparam-1].CB_id );
device_param[oldparam-1].CB_id = KNX_Empty;
}
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX D_DELETE " CB #%d"), CBnum );
}
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bool KNX_CONFIG_NOT_MATCH(void)
{
// Check for configured parameters that the device does not have (module changed)
for (uint32_t i = 0; i < KNX_MAX_device_param; ++i)
{
if ( !device_param[i].show ) { // device has this parameter ?
// if not, search for all registered group address to this parameter for deletion
// Checks all GA
if ( KNX_GA_Search(i+1) != KNX_Empty ) { return true; }
// Check all CB
if ( i < 8 ) // check relays (i from 8 to 15 are toggle relays parameters)
{
if ( KNX_CB_Search(i+1) != KNX_Empty ) { return true; }
if ( KNX_CB_Search(i+9) != KNX_Empty ) { return true; }
}
// check sensors and others
if ( i > 15 )
{
if ( KNX_CB_Search(i+1) != KNX_Empty ) { return true; }
}
}
}
// Check for invalid or erroneous configuration (tasmota flashed without clearing the memory)
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for (uint32_t i = 0; i < Settings->knx_GA_registered; ++i)
{
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if ( Settings->knx_GA_param[i] != 0 ) // the GA[i] have a parameter defined?
{
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if ( Settings->knx_GA_addr[i] == 0 ) // the GA[i] with parameter have the 0/0/0 as address?
{
return true; // So, it is invalid. Reset KNX configuration
}
}
}
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for (uint32_t i = 0; i < Settings->knx_CB_registered; ++i)
{
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if ( Settings->knx_CB_param[i] != 0 ) // the CB[i] have a parameter defined?
{
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if ( Settings->knx_CB_addr[i] == 0 ) // the CB[i] with parameter have the 0/0/0 as address?
{
return true; // So, it is invalid. Reset KNX configuration
}
}
}
return false;
}
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void KNXStart(void)
{
knx.start(nullptr);
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX D_START));
}
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void KNX_INIT(void)
{
// Check for incompatible config
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if (Settings->knx_GA_registered > MAX_KNX_GA) { Settings->knx_GA_registered = MAX_KNX_GA; }
if (Settings->knx_CB_registered > MAX_KNX_CB) { Settings->knx_CB_registered = MAX_KNX_CB; }
// Set Physical KNX Address of the device
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KNX_physs_addr.value = Settings->knx_physsical_addr;
knx.physical_address_set( KNX_physs_addr );
// Read Configuration
// Check which relays, buttons and sensors where configured for this device
// and activate options according to the hardware
/*
for (uint32_t i = 0; i < 8; i++) {
if (PinUsed(GPIO_REL1, i)) {
device_param[i].show = true;
}
}
*/
for (uint32_t i = 0; i < TasmotaGlobal.devices_present; ++i) {
device_param[i].show = true;
}
for (uint32_t i = 0; i < 4; i++) {
if (PinUsed(GPIO_KEY1, i)) {
device_param[8 + i].show = true;
}
}
for (uint32_t i = 0; i < 8; i++) {
if (PinUsed(GPIO_SWT1, i)) {
device_param[8 + i].show = true;
}
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}
if (PinUsed(GPIO_DHT11) || PinUsed(GPIO_DHT22) || PinUsed(GPIO_SI7021)) {
device_param[KNX_TEMPERATURE-1].show = true;
device_param[KNX_HUMIDITY-1].show = true;
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}
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#ifdef USE_DS18x20
if (PinUsed(GPIO_DSB, GPIO_ANY)) {
device_param[KNX_TEMPERATURE-1].show = true;
}
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#endif
#if defined(USE_ENERGY_SENSOR)
// Any device with a Power Monitoring
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if ( TasmotaGlobal.energy_driver != ENERGY_NONE ) {
device_param[KNX_ENERGY_POWER-1].show = true;
device_param[KNX_ENERGY_DAILY-1].show = true;
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device_param[KNX_ENERGY_YESTERDAY-1].show = true;
device_param[KNX_ENERGY_TOTAL-1].show = true;
device_param[KNX_ENERGY_VOLTAGE-1].show = true;
device_param[KNX_ENERGY_CURRENT-1].show = true;
device_param[KNX_ENERGY_POWERFACTOR-1].show = true;
}
#endif
#ifdef USE_RULES
device_param[KNX_SLOT1-1].show = true;
device_param[KNX_SLOT2-1].show = true;
device_param[KNX_SLOT3-1].show = true;
device_param[KNX_SLOT4-1].show = true;
device_param[KNX_SLOT5-1].show = true;
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device_param[KNX_SCENE-1].show = true;
#endif
// Delete from KNX settings all configuration is not anymore related to this device
if (KNX_CONFIG_NOT_MATCH()) {
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Settings->knx_GA_registered = 0;
Settings->knx_CB_registered = 0;
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX D_DELETE " " D_KNX_PARAMETERS));
}
// Register Group Addresses to listen to
// Search on the settings if there is a group address set for receive KNX messages for the type: device_param[j].type
// If there is, register the group address on the KNX_IP Library to Receive data for Executing Callbacks
uint8_t j;
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for (uint32_t i = 0; i < Settings->knx_CB_registered; ++i)
{
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j = Settings->knx_CB_param[i];
if ( j > 0 )
{
device_param[j-1].CB_id = knx.callback_register("", KNX_CB_Action, &device_param[j-1]); // KNX IP Library requires a parameter
// to identify which action was requested on the KNX network
// to be performed on this device (set relay, etc.)
// Is going to be used device_param[j].type that stores the type number (1: relay 1, etc)
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KNX_addr.value = Settings->knx_CB_addr[i];
knx.callback_assign( device_param[j-1].CB_id, KNX_addr );
}
}
}
void KNX_CB_Action(message_t const &msg, void *arg)
{
device_parameters_t *chan = (device_parameters_t *)arg;
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if (!(Settings->flag.knx_enabled)) { return; }
char tempchar[33];
if (msg.data_len == 1) {
// COMMAND
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sprintf(tempchar,"%d",msg.data[0]);
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} else if (chan->type == KNX_SCENE) {
// VALUE
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uint8_t tempvar = knx.data_to_1byte_uint(msg.data);
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dtostrfd(tempvar,0,tempchar);
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} else {
// VALUE
float tempvar = knx.data_to_4byte_float(msg.data);
dtostrfd(tempvar,2,tempchar);
}
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_KNX D_RECEIVED_FROM " %d.%d.%d " D_COMMAND " %s: %s " D_TO " %s"),
msg.received_on.ga.area, msg.received_on.ga.line, msg.received_on.ga.member,
(msg.ct == KNX_CT_WRITE) ? D_KNX_COMMAND_WRITE : (msg.ct == KNX_CT_READ) ? D_KNX_COMMAND_READ : D_KNX_COMMAND_OTHER,
tempchar,
device_param_cb[(chan->type)-1]);
switch (msg.ct)
{
case KNX_CT_WRITE:
if (chan->type < 9) // Set Relays
{
ExecuteCommandPower(chan->type, msg.data[0], SRC_KNX);
}
else if (chan->type < 17) // Toggle Relays
{
if (!toggle_inhibit) {
ExecuteCommandPower((chan->type) -8, POWER_TOGGLE, SRC_KNX);
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if (Settings->flag.knx_enable_enhancement) {
toggle_inhibit = TOGGLE_INHIBIT_TIME;
}
}
}
#ifdef USE_RULES
else if ((chan->type >= KNX_SLOT1) && (chan->type <= KNX_SLOT5)) // KNX RX SLOTs (write command)
{
if (!toggle_inhibit) {
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char command[35]; //4294967295.00 13chars + 17
if (msg.data_len == 1) {
// Command received
snprintf_P(command, sizeof(command), PSTR("event KNXRX_CMND%d=%d"), ((chan->type) - KNX_SLOT1 + 1 ), msg.data[0]);
} else {
// Value received
snprintf_P(command, sizeof(command), PSTR("event KNXRX_VAL%d=%s"), ((chan->type) - KNX_SLOT1 + 1 ), tempchar);
}
ExecuteCommand(command, SRC_KNX);
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if (Settings->flag.knx_enable_enhancement) {
toggle_inhibit = TOGGLE_INHIBIT_TIME;
}
}
}
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else if (chan->type == KNX_SCENE) // KNX RX SCENE SLOT (write command)
{
if (!toggle_inhibit) {
char command[25];
// Value received
snprintf_P(command, sizeof(command), PSTR("event KNX_SCENE=%s"), tempchar);
ExecuteCommand(command, SRC_KNX);
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if (Settings->flag.knx_enable_enhancement) {
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toggle_inhibit = TOGGLE_INHIBIT_TIME;
}
}
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}
#endif
break;
case KNX_CT_READ:
if (chan->type < 9) // reply Relays status
{
knx.answer_1bit(msg.received_on, chan->last_state);
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if (Settings->flag.knx_enable_enhancement) {
knx.answer_1bit(msg.received_on, chan->last_state);
knx.answer_1bit(msg.received_on, chan->last_state);
}
}
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else if (chan->type == KNX_TEMPERATURE) // Reply Temperature
{
knx.answer_4byte_float(msg.received_on, last_temp);
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if (Settings->flag.knx_enable_enhancement) {
knx.answer_4byte_float(msg.received_on, last_temp);
knx.answer_4byte_float(msg.received_on, last_temp);
}
}
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else if (chan->type == KNX_HUMIDITY) // Reply Humidity
{
knx.answer_4byte_float(msg.received_on, last_hum);
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if (Settings->flag.knx_enable_enhancement) {
knx.answer_4byte_float(msg.received_on, last_hum);
knx.answer_4byte_float(msg.received_on, last_hum);
}
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}
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#if defined(USE_ENERGY_SENSOR)
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else if (chan->type == KNX_ENERGY_VOLTAGE) // Reply KNX_ENERGY_VOLTAGE
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{
knx.answer_4byte_float(msg.received_on, Energy.voltage[0]);
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if (Settings->flag.knx_enable_enhancement) {
knx.answer_4byte_float(msg.received_on, Energy.voltage[0]);
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knx.answer_4byte_float(msg.received_on, Energy.voltage[0]);
}
}
else if (chan->type == KNX_ENERGY_CURRENT) // Reply KNX_ENERGY_CURRENT
{
knx.answer_4byte_float(msg.received_on, Energy.current[0]);
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if (Settings->flag.knx_enable_enhancement) {
knx.answer_4byte_float(msg.received_on, Energy.current[0]);
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knx.answer_4byte_float(msg.received_on, Energy.current[0]);
}
}
else if (chan->type == KNX_ENERGY_POWER) // Reply KNX_ENERGY_POWER
{
knx.answer_4byte_float(msg.received_on, Energy.active_power[0]);
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if (Settings->flag.knx_enable_enhancement) {
knx.answer_4byte_float(msg.received_on, Energy.active_power[0]);
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knx.answer_4byte_float(msg.received_on, Energy.active_power[0]);
}
}
else if (chan->type == KNX_ENERGY_POWERFACTOR) // Reply KNX_ENERGY_POWERFACTOR
{
knx.answer_4byte_float(msg.received_on, Energy.power_factor[0]);
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if (Settings->flag.knx_enable_enhancement) {
knx.answer_4byte_float(msg.received_on, Energy.power_factor[0]);
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knx.answer_4byte_float(msg.received_on, Energy.power_factor[0]);
}
}
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else if (chan->type == KNX_ENERGY_YESTERDAY) // Reply KNX_ENERGY_YESTERDAY
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{
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knx.answer_4byte_float(msg.received_on, Energy.yesterday_sum);
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if (Settings->flag.knx_enable_enhancement) {
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knx.answer_4byte_float(msg.received_on, Energy.yesterday_sum);
knx.answer_4byte_float(msg.received_on, Energy.yesterday_sum);
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}
}
else if (chan->type == KNX_ENERGY_DAILY) // Reply KNX_ENERGY_DAILY
{
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knx.answer_4byte_float(msg.received_on, Energy.daily_sum);
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if (Settings->flag.knx_enable_enhancement) {
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knx.answer_4byte_float(msg.received_on, Energy.daily_sum);
knx.answer_4byte_float(msg.received_on, Energy.daily_sum);
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}
}
else if (chan->type == KNX_ENERGY_TOTAL) // Reply KNX_ENERGY_TOTAL
{
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knx.answer_4byte_float(msg.received_on, Energy.total_sum);
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if (Settings->flag.knx_enable_enhancement) {
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knx.answer_4byte_float(msg.received_on, Energy.total_sum);
knx.answer_4byte_float(msg.received_on, Energy.total_sum);
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}
}
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#endif
#ifdef USE_RULES
else if ((chan->type >= KNX_SLOT1) && (chan->type <= KNX_SLOT5)) // KNX RX SLOTs (read command)
{
if (!toggle_inhibit) {
char command[25];
snprintf_P(command, sizeof(command), PSTR("event KNXRX_REQ%d"), ((chan->type) - KNX_SLOT1 + 1 ) );
ExecuteCommand(command, SRC_KNX);
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if (Settings->flag.knx_enable_enhancement) {
toggle_inhibit = TOGGLE_INHIBIT_TIME;
}
}
}
#endif
break;
}
}
void KnxUpdatePowerState(uint8_t device, power_t state)
{
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if (!(Settings->flag.knx_enabled)) { return; }
device_param[device -1].last_state = bitRead(state, device -1); // power state (on/off)
// Search all the registered GA that has that output (variable: device) as parameter
uint8_t i = KNX_GA_Search(device);
while ( i != KNX_Empty ) {
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KNX_addr.value = Settings->knx_GA_addr[i];
knx.write_1bit(KNX_addr, device_param[device -1].last_state);
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if (Settings->flag.knx_enable_enhancement) {
knx.write_1bit(KNX_addr, device_param[device -1].last_state);
knx.write_1bit(KNX_addr, device_param[device -1].last_state);
}
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_KNX "%s = %d " D_SENT_TO " %d.%d.%d"),
device_param_ga[device -1], device_param[device -1].last_state,
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member);
i = KNX_GA_Search(device, i + 1);
}
}
void KnxSendButtonPower(void)
{
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if (!(Settings->flag.knx_enabled)) { return; }
uint32_t key = (XdrvMailbox.payload >> 16) & 0xFF;
uint32_t device = XdrvMailbox.payload & 0xFF;
uint32_t state = (XdrvMailbox.payload >> 8) & 0xFF;
// key 0 = button_topic
// key 1 = switch_topic
// state 0 = off
// state 1 = on
// state 2 = toggle
// state 3 = hold
// state 9 = clear retain flag
// Search all the registered GA that has that output (variable: device) as parameter
uint8_t i = KNX_GA_Search(device + 8);
while ( i != KNX_Empty ) {
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KNX_addr.value = Settings->knx_GA_addr[i];
knx.write_1bit(KNX_addr, !(state == 0));
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if (Settings->flag.knx_enable_enhancement) {
knx.write_1bit(KNX_addr, !(state == 0));
knx.write_1bit(KNX_addr, !(state == 0));
}
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_KNX "%s = %d " D_SENT_TO " %d.%d.%d"),
device_param_ga[device + 7], !(state == 0),
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member);
i = KNX_GA_Search(device + 8, i + 1);
}
// }
}
void KnxSensor(uint8_t sensor_type, float value)
{
if (sensor_type == KNX_TEMPERATURE)
{
last_temp = value;
} else if (sensor_type == KNX_HUMIDITY)
{
last_hum = value;
}
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if (!(Settings->flag.knx_enabled)) { return; }
uint8_t i = KNX_GA_Search(sensor_type);
while ( i != KNX_Empty ) {
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KNX_addr.value = Settings->knx_GA_addr[i];
knx.write_4byte_float(KNX_addr, value);
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if (Settings->flag.knx_enable_enhancement) {
knx.write_4byte_float(KNX_addr, value);
knx.write_4byte_float(KNX_addr, value);
}
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_KNX "%s " D_SENT_TO " %d.%d.%d"),
device_param_ga[sensor_type -1],
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member);
i = KNX_GA_Search(sensor_type, i+1);
}
}
/*********************************************************************************************\
* Presentation
\*********************************************************************************************/
#ifdef USE_WEBSERVER
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#ifdef USE_KNX_WEB_MENU
const char HTTP_BTN_MENU_KNX[] PROGMEM =
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"<p><form action='kn' method='get'><button>" D_CONFIGURE_KNX "</button></form></p>";
const char HTTP_FORM_KNX[] PROGMEM =
"<fieldset style='min-width:530px;'>"
"<legend style='text-align:left;'><b>&nbsp;" D_KNX_PARAMETERS "&nbsp;</b></legend>"
"<form method='post' action='kn'>"
"<br><center>"
"<b>" D_KNX_PHYSICAL_ADDRESS " </b>"
"<input style='width:12%%;' type='number' name='area' min='0' max='15' value='%d'> . "
"<input style='width:12%%;' type='number' name='line' min='0' max='15' value='%d'> . "
"<input style='width:12%%;' type='number' name='member' min='0' max='255' value='%d'>"
"<br><br>" D_KNX_PHYSICAL_ADDRESS_NOTE "<br><br>"
"<label><input id='b1' type='checkbox'";
const char HTTP_FORM_KNX1[] PROGMEM =
"><b>" D_KNX_ENABLE "</b></label>&emsp;<label><input id='b2' type='checkbox'";
const char HTTP_FORM_KNX2[] PROGMEM =
"><b>" D_KNX_ENHANCEMENT "</b></label><br></center><br>"
"<fieldset><center>"
"<b>" D_KNX_GROUP_ADDRESS_TO_WRITE "</b><hr>"
"<select name='GAop' style='width:25%%;'>";
const char HTTP_FORM_KNX_OPT[] PROGMEM =
"<option value='%d'>%s</option>";
const char HTTP_FORM_KNX_GA[] PROGMEM =
"<input style='width:12%%;' type='number' id='%s' min='0' max='31' value='0'> / "
"<input style='width:12%%;' type='number' id='%s' min='0' max='7' value='0'> / "
"<input style='width:12%%;' type='number' id='%s' min='0' max='255' value='0'> ";
const char HTTP_FORM_KNX_ADD_BTN[] PROGMEM =
"<button type='submit' onclick='%s()' %s name='btn_add' value='%d' style='width:18%%;'>" D_ADD "</button><br><br>"
"<table style='width:80%%; font-size: 14px;'><col width='250'><col width='30'>";
const char HTTP_FORM_KNX_ADD_TABLE_ROW[] PROGMEM =
"<tr><td><b>%s -> %d / %d / %d </b></td>"
"<td><button type='submit' name='btn_del_ga' value='%d' class='button bred'> " D_DELETE " </button></td></tr>";
const char HTTP_FORM_KNX3[] PROGMEM =
"</table></center></fieldset><br>"
"<fieldset><form method='post' action='kn'><center>"
"<b>" D_KNX_GROUP_ADDRESS_TO_READ "</b><hr>";
const char HTTP_FORM_KNX4[] PROGMEM =
"-> <select name='CBop' style='width:25%%;'>";
const char HTTP_FORM_KNX_ADD_TABLE_ROW2[] PROGMEM =
"<tr><td><b>%d / %d / %d -> %s</b></td>"
"<td><button type='submit' name='btn_del_cb' value='%d' class='button bred'> " D_DELETE " </button></td></tr>";
2018-11-14 13:32:09 +00:00
void HandleKNXConfiguration(void)
{
if (!HttpCheckPriviledgedAccess()) { return; }
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_HTTP D_CONFIGURE_KNX));
char tmp[100];
String stmp;
if ( Webserver->hasArg("save") ) {
KNX_Save_Settings();
HandleConfiguration();
}
else
{
if ( Webserver->hasArg("btn_add") ) {
if ( Webserver->arg("btn_add") == "1" ) {
stmp = Webserver->arg("GAop"); //option selected
uint8_t GAop = stmp.toInt();
stmp = Webserver->arg("GA_FNUM");
uint8_t GA_FNUM = stmp.toInt();
stmp = Webserver->arg("GA_AREA");
uint8_t GA_AREA = stmp.toInt();
stmp = Webserver->arg("GA_FDEF");
uint8_t GA_FDEF = stmp.toInt();
if (GAop) {
KNX_ADD_GA( GAop, GA_FNUM, GA_AREA, GA_FDEF );
}
}
else
{
stmp = Webserver->arg("CBop"); //option selected
uint8_t CBop = stmp.toInt();
stmp = Webserver->arg("CB_FNUM");
uint8_t CB_FNUM = stmp.toInt();
stmp = Webserver->arg("CB_AREA");
uint8_t CB_AREA = stmp.toInt();
stmp = Webserver->arg("CB_FDEF");
uint8_t CB_FDEF = stmp.toInt();
if (CBop) {
KNX_ADD_CB( CBop, CB_FNUM, CB_AREA, CB_FDEF );
}
}
}
else if ( Webserver->hasArg("btn_del_ga") )
{
stmp = Webserver->arg("btn_del_ga");
uint8_t GA_NUM = stmp.toInt();
KNX_DEL_GA(GA_NUM);
}
else if ( Webserver->hasArg("btn_del_cb") )
{
stmp = Webserver->arg("btn_del_cb");
uint8_t CB_NUM = stmp.toInt();
KNX_DEL_CB(CB_NUM);
}
WSContentStart_P(PSTR(D_CONFIGURE_KNX));
WSContentSend_P(
PSTR("function GAwarning()"
"{"
"var GA_FNUM=eb('GA_FNUM');"
"var GA_AREA=eb('GA_AREA');"
"var GA_FDEF=eb('GA_FDEF');"
"if(GA_FNUM!=null&&GA_FNUM.value=='0'&&GA_AREA.value=='0'&&GA_FDEF.value=='0'){"
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"alert(\"" D_KNX_WARNING "\");"
"}"
"}"
"function CBwarning()"
"{"
"var CB_FNUM=eb('CB_FNUM');"
"var CB_AREA=eb('CB_AREA');"
"var CB_FDEF=eb('CB_FDEF');"
"if(CB_FNUM!=null&&CB_FNUM.value=='0'&&CB_AREA.value=='0'&&CB_FDEF.value=='0'){"
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"alert(\"" D_KNX_WARNING "\");"
"}"
"}"));
WSContentSendStyle();
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KNX_physs_addr.value = Settings->knx_physsical_addr;
WSContentSend_P(HTTP_FORM_KNX, KNX_physs_addr.pa.area, KNX_physs_addr.pa.line, KNX_physs_addr.pa.member);
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if ( Settings->flag.knx_enabled ) { WSContentSend_P(PSTR(" checked")); }
WSContentSend_P(HTTP_FORM_KNX1);
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if ( Settings->flag.knx_enable_enhancement ) { WSContentSend_P(PSTR(" checked")); }
WSContentSend_P(HTTP_FORM_KNX2);
for (uint32_t i = 0; i < KNX_MAX_device_param ; i++)
{
if ( device_param[i].show )
{
WSContentSend_P(HTTP_FORM_KNX_OPT, device_param[i].type, device_param_ga[i]);
}
}
WSContentSend_P(PSTR("</select> -> "));
WSContentSend_P(HTTP_FORM_KNX_GA, "GA_FNUM", "GA_AREA", "GA_FDEF");
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WSContentSend_P(HTTP_FORM_KNX_ADD_BTN, "GAwarning", (Settings->knx_GA_registered < MAX_KNX_GA) ? "" : "disabled", 1);
for (uint32_t i = 0; i < Settings->knx_GA_registered ; ++i)
{
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if ( Settings->knx_GA_param[i] )
{
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KNX_addr.value = Settings->knx_GA_addr[i];
WSContentSend_P(HTTP_FORM_KNX_ADD_TABLE_ROW, device_param_ga[Settings->knx_GA_param[i]-1], KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member, i +1);
}
}
WSContentSend_P(HTTP_FORM_KNX3);
WSContentSend_P(HTTP_FORM_KNX_GA, "CB_FNUM", "CB_AREA", "CB_FDEF");
WSContentSend_P(HTTP_FORM_KNX4);
uint8_t j;
for (uint32_t i = 0; i < KNX_MAX_device_param ; i++)
{
// Check How many Relays are available and add: RelayX and TogleRelayX
if ( (i > 8) && (i < 16) ) { j=i-8; } else { j=i; }
if ( i == 8 ) { j = 0; }
if ( device_param[j].show )
{
WSContentSend_P(HTTP_FORM_KNX_OPT, device_param[i].type, device_param_cb[i]);
}
}
WSContentSend_P(PSTR("</select> "));
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WSContentSend_P(HTTP_FORM_KNX_ADD_BTN, "CBwarning", (Settings->knx_CB_registered < MAX_KNX_CB) ? "" : "disabled", 2);
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for (uint32_t i = 0; i < Settings->knx_CB_registered ; ++i)
{
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if ( Settings->knx_CB_param[i] )
{
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KNX_addr.value = Settings->knx_CB_addr[i];
WSContentSend_P(HTTP_FORM_KNX_ADD_TABLE_ROW2, KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member, device_param_cb[Settings->knx_CB_param[i]-1], i +1);
}
}
WSContentSend_P(PSTR("</table></center></fieldset>"));
WSContentSend_P(HTTP_FORM_END);
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WSContentSpaceButton(BUTTON_CONFIGURATION);
2019-03-16 15:23:41 +00:00
WSContentStop();
}
}
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void KNX_Save_Settings(void)
{
String stmp;
address_t KNX_addr;
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Settings->flag.knx_enabled = Webserver->hasArg("b1");
Settings->flag.knx_enable_enhancement = Webserver->hasArg("b2");
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX D_ENABLED ": %d, " D_KNX_ENHANCEMENT ": %d"),
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Settings->flag.knx_enabled, Settings->flag.knx_enable_enhancement );
stmp = Webserver->arg("area");
KNX_addr.pa.area = stmp.toInt();
stmp = Webserver->arg("line");
KNX_addr.pa.line = stmp.toInt();
stmp = Webserver->arg("member");
KNX_addr.pa.member = stmp.toInt();
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Settings->knx_physsical_addr = KNX_addr.value;
knx.physical_address_set( KNX_addr ); // Set Physical KNX Address of the device
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX D_KNX_PHYSICAL_ADDRESS ": %d.%d.%d "),
KNX_addr.pa.area, KNX_addr.pa.line, KNX_addr.pa.member );
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX "GA: %d"),
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Settings->knx_GA_registered );
for (uint32_t i = 0; i < Settings->knx_GA_registered ; ++i)
{
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KNX_addr.value = Settings->knx_GA_addr[i];
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX "GA #%d: %s " D_TO " %d/%d/%d"),
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i+1, device_param_ga[Settings->knx_GA_param[i]-1],
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member );
}
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX "CB: %d"),
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Settings->knx_CB_registered );
for (uint32_t i = 0; i < Settings->knx_CB_registered ; ++i)
{
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KNX_addr.value = Settings->knx_CB_addr[i];
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AddLog(LOG_LEVEL_DEBUG, PSTR(D_LOG_KNX "CB #%d: %d/%d/%d " D_TO " %s"),
i+1,
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member,
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device_param_cb[Settings->knx_CB_param[i]-1] );
}
}
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#endif // USE_KNX_WEB_MENU
#endif // USE_WEBSERVER
/*********************************************************************************************\
* Commands
\*********************************************************************************************/
void CmndKnxTxCmnd(void)
{
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if ((XdrvMailbox.index > 0) && (XdrvMailbox.index <= MAX_KNXTX_CMNDS) && (XdrvMailbox.data_len > 0) && Settings->flag.knx_enabled) {
// XdrvMailbox.index <- KNX SLOT to use
// XdrvMailbox.payload <- data to send
// Search all the registered GA that has that output (variable: KNX SLOTx) as parameter
uint8_t i = KNX_GA_Search(XdrvMailbox.index + KNX_SLOT1 -1);
while ( i != KNX_Empty ) {
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KNX_addr.value = Settings->knx_GA_addr[i];
knx.write_1bit(KNX_addr, !(XdrvMailbox.payload == 0));
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if (Settings->flag.knx_enable_enhancement) {
knx.write_1bit(KNX_addr, !(XdrvMailbox.payload == 0));
knx.write_1bit(KNX_addr, !(XdrvMailbox.payload == 0));
}
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_KNX "%s = %d " D_SENT_TO " %d.%d.%d"),
device_param_ga[XdrvMailbox.index + KNX_SLOT1 -2], !(XdrvMailbox.payload == 0),
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member);
i = KNX_GA_Search(XdrvMailbox.index + KNX_SLOT1 -1, i + 1);
}
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ResponseCmndIdxChar (XdrvMailbox.data );
}
}
void CmndKnxTxVal(void)
{
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if ((XdrvMailbox.index > 0) && (XdrvMailbox.index <= MAX_KNXTX_CMNDS) && (XdrvMailbox.data_len > 0) && Settings->flag.knx_enabled) {
// XdrvMailbox.index <- KNX SLOT to use
// XdrvMailbox.payload <- data to send
// Search all the registered GA that has that output (variable: KNX SLOTx) as parameter
uint8_t i = KNX_GA_Search(XdrvMailbox.index + KNX_SLOT1 -1);
while ( i != KNX_Empty ) {
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KNX_addr.value = Settings->knx_GA_addr[i];
float tempvar = CharToFloat(XdrvMailbox.data);
dtostrfd(tempvar,2,XdrvMailbox.data);
knx.write_4byte_float(KNX_addr, tempvar);
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if (Settings->flag.knx_enable_enhancement) {
knx.write_4byte_float(KNX_addr, tempvar);
knx.write_4byte_float(KNX_addr, tempvar);
}
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_KNX "%s = %s " D_SENT_TO " %d.%d.%d"),
device_param_ga[XdrvMailbox.index + KNX_SLOT1 -2], XdrvMailbox.data,
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member);
i = KNX_GA_Search(XdrvMailbox.index + KNX_SLOT1 -1, i + 1);
}
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ResponseCmndIdxChar (XdrvMailbox.data );
}
}
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void CmndKnxTxScene(void)
{
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if ( (XdrvMailbox.data_len > 0) && Settings->flag.knx_enabled ) {
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// XdrvMailbox.payload <- scene number to send
uint8_t i = KNX_GA_Search(KNX_SCENE);
if ( i != KNX_Empty ) {
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KNX_addr.value = Settings->knx_GA_addr[i];
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uint8_t tempvar = TextToInt(XdrvMailbox.data);
dtostrfd(tempvar,0,XdrvMailbox.data);
knx.write_1byte_uint(KNX_addr, tempvar);
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if (Settings->flag.knx_enable_enhancement) {
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knx.write_1byte_uint(KNX_addr, tempvar);
knx.write_1byte_uint(KNX_addr, tempvar);
}
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AddLog(LOG_LEVEL_INFO, PSTR(D_LOG_KNX "%s = %s " D_SENT_TO " %d.%d.%d"),
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device_param_ga[KNX_SCENE-1], XdrvMailbox.data,
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member);
ResponseCmndIdxChar (XdrvMailbox.data);
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}
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}
}
void CmndKnxEnabled(void)
{
if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload <= 1)) {
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Settings->flag.knx_enabled = XdrvMailbox.payload;
}
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ResponseCmndChar (GetStateText(Settings->flag.knx_enabled) );
}
void CmndKnxEnhanced(void)
{
if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload <= 1)) {
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Settings->flag.knx_enable_enhancement = XdrvMailbox.payload;
}
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ResponseCmndChar (GetStateText(Settings->flag.knx_enable_enhancement) );
}
void CmndKnxPa(void)
{
if (XdrvMailbox.data_len) {
if (strchr(XdrvMailbox.data, '.') != nullptr) { // Process parameter entry
char sub_string[XdrvMailbox.data_len];
int pa_area = atoi(subStr(sub_string, XdrvMailbox.data, ".", 1));
int pa_line = atoi(subStr(sub_string, XdrvMailbox.data, ".", 2));
int pa_member = atoi(subStr(sub_string, XdrvMailbox.data, ".", 3));
if ( ((pa_area == 0) && (pa_line == 0) && (pa_member == 0))
|| (pa_area > 15) || (pa_line > 15) || (pa_member > 255) ) {
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ResponseCmndError();
return;
} // Invalid command
KNX_addr.pa.area = pa_area;
KNX_addr.pa.line = pa_line;
KNX_addr.pa.member = pa_member;
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Settings->knx_physsical_addr = KNX_addr.value;
}
}
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KNX_addr.value = Settings->knx_physsical_addr;
Response_P (PSTR("{\"%s\":\"%d.%d.%d\"}"),
XdrvMailbox.command, KNX_addr.pa.area, KNX_addr.pa.line, KNX_addr.pa.member );
}
void CmndKnxGa(void)
{
if ((XdrvMailbox.index > 0) && (XdrvMailbox.index <= MAX_KNX_GA)) {
if (XdrvMailbox.data_len) {
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if (ArgC() > 1) { // Process parameter entry
char argument[XdrvMailbox.data_len];
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int ga_option = atoi(ArgV(argument, 1));
int ga_area = atoi(ArgV(argument, 2));
int ga_line = atoi(ArgV(argument, 3));
int ga_member = atoi(ArgV(argument, 4));
if ( ((ga_area == 0) && (ga_line == 0) && (ga_member == 0))
|| (ga_area > 31) || (ga_line > 7) || (ga_member > 255)
|| (ga_option < 0) || ((ga_option > KNX_MAX_device_param ) && (ga_option != KNX_Empty))
|| (!device_param[ga_option-1].show) ) {
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ResponseCmndIdxError();
return;
} // Invalid command
KNX_addr.ga.area = ga_area;
KNX_addr.ga.line = ga_line;
KNX_addr.ga.member = ga_member;
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if ( XdrvMailbox.index > Settings->knx_GA_registered ) {
Settings->knx_GA_registered ++;
XdrvMailbox.index = Settings->knx_GA_registered;
}
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Settings->knx_GA_addr[XdrvMailbox.index -1] = KNX_addr.value;
Settings->knx_GA_param[XdrvMailbox.index -1] = ga_option;
} else {
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if ( (XdrvMailbox.payload <= Settings->knx_GA_registered) && (XdrvMailbox.payload > 0) ) {
XdrvMailbox.index = XdrvMailbox.payload;
} else {
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ResponseCmndIdxError();
return;
}
}
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if ( XdrvMailbox.index <= Settings->knx_GA_registered ) {
KNX_addr.value = Settings->knx_GA_addr[XdrvMailbox.index -1];
Response_P (PSTR("{\"%s%d\":\"%s, %d/%d/%d\"}"),
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XdrvMailbox.command, XdrvMailbox.index, device_param_ga[Settings->knx_GA_param[XdrvMailbox.index-1]-1],
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member );
}
} else {
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ResponseCmndIdxNumber (Settings->knx_GA_registered );
}
}
}
void CmndKnxCb(void)
{
if ((XdrvMailbox.index > 0) && (XdrvMailbox.index <= MAX_KNX_CB)) {
if (XdrvMailbox.data_len) {
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if (ArgC() > 1) { // Process parameter entry
char argument[XdrvMailbox.data_len];
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int cb_option = atoi(ArgV(argument, 1));
int cb_area = atoi(ArgV(argument, 2));
int cb_line = atoi(ArgV(argument, 3));
int cb_member = atoi(ArgV(argument, 4));
if ( ((cb_area == 0) && (cb_line == 0) && (cb_member == 0))
|| (cb_area > 31) || (cb_line > 7) || (cb_member > 255)
|| (cb_option < 0) || ((cb_option > KNX_MAX_device_param ) && (cb_option != KNX_Empty))
|| (!device_param[cb_option-1].show) ) {
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ResponseCmndIdxError();
return;
} // Invalid command
KNX_addr.ga.area = cb_area;
KNX_addr.ga.line = cb_line;
KNX_addr.ga.member = cb_member;
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if ( XdrvMailbox.index > Settings->knx_CB_registered ) {
Settings->knx_CB_registered ++;
XdrvMailbox.index = Settings->knx_CB_registered;
}
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Settings->knx_CB_addr[XdrvMailbox.index -1] = KNX_addr.value;
Settings->knx_CB_param[XdrvMailbox.index -1] = cb_option;
} else {
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if ( (XdrvMailbox.payload <= Settings->knx_CB_registered) && (XdrvMailbox.payload > 0) ) {
XdrvMailbox.index = XdrvMailbox.payload;
} else {
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ResponseCmndIdxError();
return;
}
}
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if ( XdrvMailbox.index <= Settings->knx_CB_registered ) {
KNX_addr.value = Settings->knx_CB_addr[XdrvMailbox.index -1];
Response_P (PSTR("{\"%s%d\":\"%s, %d/%d/%d\"}"),
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XdrvMailbox.command, XdrvMailbox.index, device_param_cb[Settings->knx_CB_param[XdrvMailbox.index-1]-1],
KNX_addr.ga.area, KNX_addr.ga.line, KNX_addr.ga.member );
}
} else {
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ResponseCmndIdxNumber (Settings->knx_CB_registered );
}
}
}
/*********************************************************************************************\
* Interface
\*********************************************************************************************/
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bool Xdrv11(uint32_t function)
{
bool result = false;
switch (function) {
case FUNC_LOOP:
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if (!TasmotaGlobal.global_state.network_down) { knx.loop(); } // Process knx events
break;
case FUNC_EVERY_50_MSECOND:
if (toggle_inhibit) {
toggle_inhibit--;
}
break;
case FUNC_ANY_KEY:
KnxSendButtonPower();
break;
#ifdef USE_WEBSERVER
#ifdef USE_KNX_WEB_MENU
case FUNC_WEB_ADD_BUTTON:
WSContentSend_P(HTTP_BTN_MENU_KNX);
break;
case FUNC_WEB_ADD_HANDLER:
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WebServer_on(PSTR("/kn"), HandleKNXConfiguration);
break;
#endif // USE_KNX_WEB_MENU
#endif // USE_WEBSERVER
case FUNC_COMMAND:
result = DecodeCommand(kKnxCommands, KnxCommand);
break;
case FUNC_PRE_INIT:
KNX_INIT();
break;
case FUNC_NETWORK_UP:
if (!knx_started && Settings->flag.knx_enabled) { // CMND_KNX_ENABLED
KNXStart();
knx_started = true;
}
break;
case FUNC_NETWORK_DOWN:
knx_started = false;
break;
// case FUNC_SET_POWER:
// break;
}
return result;
}
#endif // USE_KNX