roberto/PiGarden
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Compare commits

base: roberto:v0.5.6
Branches Tags
roberto:master roberto:roberto-patch-1 roberto:develop roberto:rainsensorqty roberto:drv
roberto:v0.6.5 roberto:v0.6.4 roberto:v0.6.3 roberto:v0.6.2 roberto:v0.6.1 roberto:v0.6.0 roberto:v0.5.14 roberto:v0.5.13 roberto:v0.5.12 roberto:v0.5.11 roberto:v0.5.10 roberto:v0.5.9 roberto:v0.5.8 roberto:v0.5.7 roberto:v0.5.6 roberto:v0.5.5 roberto:v0.5.4 roberto:v0.5.3 roberto:v0.5.2 roberto:v0.5.1 roberto:v0.5.0 roberto:v0.4.4 roberto:v0.4.3 roberto:v0.4.2 roberto:v0.4.1 roberto:v0.4.0 roberto:v0.3.1 roberto:v0.3.0 roberto:v0.2.2 roberto:v0.2.1 roberto:v0.2 roberto:v0.1.1 roberto:v0.1
...
compare: roberto:develop
Branches Tags
roberto:master roberto:roberto-patch-1 roberto:develop roberto:rainsensorqty roberto:drv
roberto:v0.6.5 roberto:v0.6.4 roberto:v0.6.3 roberto:v0.6.2 roberto:v0.6.1 roberto:v0.6.0 roberto:v0.5.14 roberto:v0.5.13 roberto:v0.5.12 roberto:v0.5.11 roberto:v0.5.10 roberto:v0.5.9 roberto:v0.5.8 roberto:v0.5.7 roberto:v0.5.6 roberto:v0.5.5 roberto:v0.5.4 roberto:v0.5.3 roberto:v0.5.2 roberto:v0.5.1 roberto:v0.5.0 roberto:v0.4.4 roberto:v0.4.3 roberto:v0.4.2 roberto:v0.4.1 roberto:v0.4.0 roberto:v0.3.1 roberto:v0.3.0 roberto:v0.2.2 roberto:v0.2.1 roberto:v0.2 roberto:v0.1.1 roberto:v0.1

66 Commits
v0.5.6 ... develop

Author SHA1 Message Date
lejubila
10045d5a11 Fix path of url weather icons 2022-07-16 16:26:38 +02:00
lejubila
3d0d36077d Update CHANGELOG 2021-10-03 10:04:30 +02:00
lejubila
a30e1cb6ef fix return value when get value of sensor 2021-08-28 12:17:22 +02:00
lejubila
81ce03e90a Add autoclose of the solenoid when the soil moisture has reached the set level 2021-08-28 11:38:05 +02:00
lejubila
2001b09937 Add support for sensor: moisture, temperature, fertility, illuminance. Add event ev_not_open_for_moisture, sensor_set_state_before, sensor_set_state_after. Added zone humidity management: when a zone has reached the humidity defined in EVx_SENSOR_MOISTURE it does not start irrigation or interrupts it if it is already active. In case of rain it does not stop irrigation if the soil humidity has not reached the configured value. 2021-08-27 22:52:01 +02:00
lejubila
c91128cbb4 Add command line: sensor_status, sensor_status_all, sensor_status_set. Add api command: sensor_status_set. 2021-08-22 15:19:34 +02:00
lejubila
7242b1c2ab Add command last_rain_sensor_timestamp, last_rain_online_timestamp, reset_last_rain_sensor_timestamp, reset_last_rain_online_timestamp. Add socket server api for reset_last_rain_sensor_timestamp, reset_last_rain_online_timestamp 2021-08-10 23:39:38 +02:00
lejubila
5152252653 Aggiornato driver rainsensorqty alla versione 0.2.5c 2021-04-24 09:55:57 +02:00
lejubila
50fc8a72b2 Change number of version 2020-09-06 08:28:04 +02:00
lejubila
9183bbcef5 Add support for send log to piGardenWeb 2020-09-06 08:24:26 +02:00
lejubila
bdab0fb6fe Fix changelog 2020-05-16 18:14:21 +02:00
lejubila
6ed0510c7f Published version 0.6.0: - Add support for enable all cron fron api 
- Update rainsensorqty driver to version 0.2.5b
 2020-05-16 18:11:51 +02:00
lejubila
15e36e95a3 Update rainsensorqty to version 0.2.5 2020-04-08 22:17:14 +02:00
lejubila
3a5c3ef934 Add support for enable all cron fron api 2020-04-07 23:20:41 +02:00
lejubila
f3c11a7fee Corretto repositori git da cui scaricare wiringPi 2020-04-01 12:45:58 +02:00
lejubila
ac95194b3e Rimosso file con riferimento alla vecchia versione di rainsensorqty 2019-09-24 18:47:39 +02:00
lejubila
a125ff31d8 Aggiornato changelog alla version 0.5.14 2019-09-24 17:12:25 +02:00
lejubila
bb435f0ee6 Merge branch 'rainsensorqty' into develop 
Eseguito merge del brench rainsensorqty nel brench develop
 2019-09-24 17:06:25 +02:00
lejubila
b8daa7acab Cambiato numero di versione 2019-09-24 17:05:50 +02:00
lejubila
dd289f8b31 Adattato alla versione 0.3.3 i nomi zone presente nelle schedulazione mostrate nello stato in formato json 2019-09-24 16:58:23 +02:00
androtto
2add0c725f versione 0.2.3 2019-09-21 23:00:50 +02:00
androtto
0b34b7010f version 0.2.1 2019-09-02 14:42:29 +02:00
lejubila
c527702c72 Aggiunto elenco elettrovalvole con relativi alias nello status json 2019-09-01 22:22:42 +02:00
lejubila
b6de96debe Aggiunto api per gestire le schedulazioni di piGardenSched 2019-08-29 19:00:42 +02:00
lejubila
ea681816fe Aggiunto nello status json la lettura delle schedulazioni gestite con piGardenSched 2019-08-25 17:25:12 +02:00
lejubila
8ca698d4ee rimosso alcune linee commentate 2019-08-24 10:04:46 +02:00
lejubila
70943c5f5e Rimosso alcune linee commentate 2019-08-24 09:59:18 +02:00
lejubila
aa9799cdaf Rimosso alcune linee commentate 2019-08-24 09:52:46 +02:00
lejubila
6d4f522f21 Aggiunto changelog per nuova versione, e file di configurazione di esempio per il nuovo driver rainsensorqty 2019-08-12 08:40:55 +02:00
lejubila
51e4391237 Merge branch 'rainsensorqty' into develop 2019-08-12 08:26:28 +02:00
lejubila
e2eda96f2c Aggiornato driver rainsensorqty alla versione 0.2.0 2019-08-12 08:24:57 +02:00
lejubila
aa12f5a8a5 Aggiunto compressione file di log dei driver 2019-06-23 12:44:33 +02:00
lejubila
40ab2e3b25 Aggiunto implementazione driver rainsensorqty railizzato da @androtto 2018-12-09 12:49:09 +01:00
lejubila
40eb0b2429 Iniziato integrazione codice di @androtto nel driver rainsensorqty 2018-11-17 09:20:24 +01:00
lejubila
9d9ef42679 Aggiornato numero versione 2018-11-13 12:47:26 +01:00
lejubila
70c4e063f8 corretto bug su driver openweathermap che in alcuni casi causa una malformazione dello status json e impediva la comunicazione con piGardenWeb 2018-11-13 12:45:28 +01:00
lejubila
4d4b35c3cc corretto bug su driver openweathermap che in alcuni casi causa una malformazione dello status json e impediva la comunicazione con piGardenWeb 2018-11-13 12:43:26 +01:00
lejubila
71e91cc861 Corretto bug che impediva la pubblicazione del topic mqtt per ogni evento 2018-11-12 23:15:34 +01:00
David Bigagli
e26292fe36 Delete mqtt_status.sh 2018-11-11 23:39:22 +01:00
lejubila
d99566ef93 aggiunto scheletro driver rainsensorqty 2018-11-11 23:31:13 +01:00
lejubila
a76c797b22 Corretto nome variabile errata EV1_MONOSTAVLE nel file di configurazione 2018-11-11 15:34:28 +01:00
lejubila
07a594e799 aggiunto possibilità di disabilitare servizio meteo online 2018-11-11 11:57:59 +01:00
lejubila
dfa68c2b83 Implementato possibilità di disabilitare servizio meteo online impostando il valore none in WEATHER_SERVICE 2018-11-11 11:49:35 +01:00
lejubila
e284bbcb25 Fix bug in single monostable solenodid management caused from wrong variable name EV_IS_MONOSTAVLE 2018-11-11 11:14:28 +01:00
lejubila
d324faf8bb Fix bug in single monostable solenodid management caused from wrong variable name EV_IS_MONOSTAVLE 2018-11-11 10:13:21 +01:00
lejubila
383cbc44a9 Fix bug in single monostable solenodid management caused from wrong variable name EV_IS_MONOSTAVLE 2018-11-11 10:09:02 +01:00
lejubila
9864709b44 Cambiato changelog 2018-11-01 12:03:07 +01:00
lejubila
6d8c82f0a3 Modificato gestione di invio messaggi tramite socket server 2018-10-14 22:47:43 +02:00
lejubila
a997081aa9 Rimosso mqttconnector 2018-09-22 08:23:13 +02:00
lejubila
c145171306 Aggiunto nel json_status il tipo di evento attualmente triggerato 2018-09-22 08:20:54 +02:00
lejubila
e9a676188f Aggiunto supporto mqtt per la pubblicazione dello stato in formato json verso il broker 2018-09-20 10:53:40 +02:00
lejubila
0d748031fd variato file di configurazione di mqttconnector 2018-08-15 12:09:47 +02:00
lejubila
3ed46d80ad Merge branch 'master' of https://github.com/lejubila/piGarden 2018-07-18 23:10:29 +02:00
lejubila
05a73720bb Inserito data nel CHANGELOG prima della pubbilicazione della release, aggiunto prima implementazione sperimentale di mqttconnector 2018-07-18 23:08:16 +02:00
lejubila
2ea6588c32 Implementato controllo meteo su servizio online tramite driver, implementato driver per interfacciarsi con le api di openweathermap e wunderground 2018-07-15 23:18:59 +02:00
David Bigagli
fc717f18a2 Update README.md 2018-06-05 18:00:25 +02:00
David Bigagli
50117a5a96 Update README.md 2018-06-05 17:57:14 +02:00
David Bigagli
309c209b1b Update README.md 2018-06-05 17:56:35 +02:00
David Bigagli
9a81f0fbba Update README.md 2018-06-05 17:53:36 +02:00
lejubila
419695b420 Implementato driver subsistem per il controllo delle condizioni meteo tramite servizio online. Implementato driver 'wunderground' per il controllo meteo tramite il servizio wunderground 2018-06-05 16:31:45 +02:00
lejubila
3239006922 Modificato file README dei driver, variato numero di versione di piGarden 2018-06-01 22:16:26 +02:00
lejubila
24baa97dad Corretto nome di funzione nel driver sonoff_tasmota_http 2018-05-24 22:06:12 +02:00
lejubila
c354f72c0c Eseguito correzioni su driver sonoff_tasmota_http 2018-05-23 17:57:24 +02:00
lejubila
6f80b8ea21 Corretto problema parsing json su driver sonoff_tasmota_http 2018-05-22 12:53:57 +02:00
lejubila
87edbbbe7a Eseguito correzioni su driver sonoff_tasmota_http 2018-05-21 22:21:27 +02:00
lejubila
3eb45fd1e9 Aggiunto prima implementazione del driver sonoff_tesmota_http, aggiunto implementazione parametro EVx_MONOSTABLE per potere definire singolarmente le elettrovamvole monostabili, corretto alcuni commenti 2018-05-20 17:14:58 +02:00
55 changed files with 3111 additions and 176 deletions
Expand all files Collapse all files

53
CHANGELOG.md
View File

@@ -1,3 +1,56 @@
# 0.6.4 - 03/10/2021
- Fix path of url weather icons
# 0.6.4 - 03/10/2021
- Add support for sensor: moisture, temperature, fertility, illuminance
- Add command line: sensor_status, sensor_status_all, sensor_status_set
- Add api command: sensor_status_set
- Add event ev_not_open_for_moisture, sensor_set_state_before, sensor_set_state_after
- Added zone humidity management: when a zone has reached the humidity defined in EVx_SENSOR_MOISTURE it does not start irrigation or interrupts it if it is already active. In case of rain it does not stop irrigation if the soil humidity has not reached the configured value
# 0.6.3 - 10/08/2021
- Add command last_rain_sensor_timestamp, last_rain_online_timestamp, reset_last_rain_sensor_timestamp, reset_last_rain_online_timestamp
- Add socket server api for reset_last_rain_sensor_timestamp, reset_last_rain_online_timestamp
# 0.6.2 - 24/04/2021
- Update rainsensorqty driver to version 0.2.5c
# 0.6.1 - 06/09/2020
- Add support for send log to piGardenWeb
# 0.6.0 - 16/05/2020
- Add support for enable all cron fron api
- Update rainsensorqty driver to version 0.2.5b
# 0.5.14 - 24/09/2019
- Updated rainsensorqty driver to version 0.2.3
- Added api and command for manage piGardenSched scheduling
# 0.5.13 - 12/08/2019
- Added driver rainsensorqty for menage rainfall detection based on quantity
# 0.5.12.1 - 23/06/2019
- Added zip log drver file when exceeding the size limit
# 0.5.12 - 13/11/2018
- Fixed a bug that prevented the publication of the mqtt topic for each event
- Fixed a bug on openweathermap driver which in some cases causes a malformation of the json status and prevented communication with piGardenWeb
# 0.5.11 - 11/11/2018
- Added ability to disable online weather service by defining WEATHER_SERVICE="none" in the configuration file
# 0.5.10 - 11/11/2018
- Fix bug in single monostable solenodid management caused from wrong variable name EV_IS_MONOSTAVLE
# 0.5.9 - 01/11/2018
- Added mqtt support for publishing status to broker
# 0.5.8 - 19/07/2018
- Added "openweathermap" driver for impement check weather condition from openweatermap api
# 0.5.7 - 01/06/2018
- Added "sonoff_tasmota_http" driver for interfacin with Sonoff module with Tasmota firmware over http protocol
# 0.5.6 - 04/05/2018
- Added events ev_not_open_for_rain, ev_not_open_for_rain_sensor, ev_not_open_for_rain_online
- Added script rpinotify.sh for notificate events to telegram

4
README.md
View File

@@ -41,8 +41,8 @@ sudo make install
``` bash
cd
git clone git://git.drogon.net/wiringPi
cd wiringPi
git clone https://github.com/WiringPi/WiringPi.git
cd WiringPi
git pull origin
./build
```

57
conf/piGarden.conf.example
View File

@@ -2,6 +2,14 @@
LOG_FILE="/home/pi/piGarden/log/piGarden.log"
LOG_FILE_MAX_SIZE=1048576 # 1MB
#
# Enable send log to piGardenWeb
#
#LOG_URL="http://url_of_your_pigardenweb/api/log"
#LOG_API_TOKEN="token_of_pigardenweb_user"
#LOG_CURL_PARAM="--data-urlencode -k"
# Log file for driver output
LOG_OUTPUT_DRV_FILE="/tmp/piGarden.drv.log"
@@ -53,8 +61,16 @@ READLINK="/bin/readlink"
# Percorso stat
STAT="/usr/bin/stat"
# Percorso mosquito_pub
# # Installare con apt install mosquitto-clients
MOSQUITTO_PUB="/usr/bin/mosquitto_pub"
# Percorso di piGardenSched, se non definito non verranno gestire le schedulazioni di piGardenSched tramite api
#PIGARDENSCHED_PATH="/home/pi/piGardenSched/piGardenSched.sh"
# Se impostato con il valore 1, indica che il sistema gestisce elettrovalvole monostabili,
# se impostato a 0 il sistema gestirà elettrovalvole bisstabili
# se impostato a 0 il sistema gestirà elettrovalvole bistabili
EV_MONOSTABLE=0
# Id gpio usati per simulare il doppio deviatore con cui eseguire l'alimentazione alle elettrovalvole
@@ -90,6 +106,10 @@ EV_TOTAL=6
EV1_ALIAS="1" #
EV1_GPIO=17 # Physical 11 - wPi 0
#EV1_NORAIN=1 # Non interrompe l'irrigazione di questa zona in caso di pioggia
#EV1_MONOSTABLE=1 # L'elettrovalvola è monostabile
#EV1_SENSOR_ALIAS=Mi_Flora # Nome del sensore (definito in SENSORx_ALIAS) per stabilire l'umidità del terreno
#EV1_SENSOR_MOISTURE=50 # Percentule di umidità ottimale
#EV1_SENSOR_MOISTURE_AUTOCLOSE=1 # Chiude automaticamente l'elettrovalvola quando supera l'umidità impostata in EVx_MONOSTABLE
EV2_ALIAS="2" #
EV2_GPIO=27 # Physical 13 - wPi 2
@@ -106,9 +126,31 @@ EV5_GPIO=23 # Physical 16 - wPi 4
EV6_ALIAS="6" #
EV6_GPIO=24 # Physical 18 - wPi 5
# Definisce l'api key e il luogo per recuperare lo stato meteo online
# Numero di sensori
SENSOR_TOTAL=1
# Definizione sensori
SENSOR1_ALIAS=Mi_Flora
# Definisci il servizio online da utilizzare per il controllo delle condizioni meteo, puoi scegliere openweathermap oppure wunderground.
# Se non vuoi configurare nessun servizio imposta il vale "none"
WEATHER_SERVICE="openweathermap"
#WEATHER_SERVICE="none" # Nessun servizio configurato
# Parametri di openweathermap, definisce l'api key e il luogo per recuperare lo stato meteo online
OPENWEATHERMAP_KEY=""
OPENWEATHERMAP_LOCATION="q=Pieve%20a%20Nievole,it" # https://openweathermap.org/current
OPENWEATHERMAP_TZ="Europe/Rome" # Time zone
# Parametri di wunderground, definisce l'api key e il luogo per recuperare lo stato meteo online
WUNDERGROUND_KEY=""
WUNDERGROUND_LOCATION="IY/Monsummano" # http://www.wunderground.com/weather/api/d/docs?d=resources/country-to-iso-matching&MR=1
WUNDERGROUND_LOCATION="IT/Pieve%20a%20Nievole" # http://www.wunderground.com/weather/api/d/docs?d=resources/country-to-iso-matching&MR=1
# Blocca l'irrigazione se l'ultima pioggia rilevata online è avvenuta nell'ultima quantità di tempo inserita.
# Il tempo è espresso in secondi. Quindi inserendo 86400, se nelle ultime 24 ore ha piovuto viene bloccata l'irrigazione. Inserendo il valore zero non viene eseguito nessun controllo.
@@ -128,3 +170,12 @@ TCPSERVER_PWD=""
# Con impostato il valore 1 non invia l'identificativi per statistiche di utilizzo
NO_SEND_IDENTIFIER=0
# Parametri connessione al broker mqtt
MQTT_ENABLE=0 # set 1 to enable
MQTT_HOST=you_host_mqtt
MQTT_PORT=1883
MQTT_USER=your_user_mqtt
MQTT_PWD=yout_password_mqtt
MQTT_TOPIC="pigarden/result"
MQTT_CLIENT_ID=piGarden

174
conf/piGarden.conf.rainsensorqty.example Normal file
View File

@@ -0,0 +1,174 @@
# Log file
LOG_FILE="/home/pi/piGarden/log/piGarden.log"
LOG_FILE_MAX_SIZE=1048576 # 1MB
#
# Enable send log to piGardenWeb
#
#LOG_URL="http://url_of_your_pigardenweb/api/log"
#LOG_API_TOKEN="token_of_pigardenweb_user"
#LOG_CURL_PARAM="--data-urlencode -k"
# Log file for driver output
LOG_OUTPUT_DRV_FILE="/tmp/piGarden.drv.log"
# Status directory
STATUS_DIR="/home/pi/piGarden/state"
# Event directory
EVENT_DIR="/home/pi/piGarden/events"
# Posizione gpio
GPIO="/usr/local/bin/gpio"
# Posizione js
JQ="/usr/local/bin/jq"
# Percorso curl
CURL="/usr/bin/curl"
# Percorso wc
WC="/usr/bin/wc"
# Percorso gzip
GZIP="/bin/gzip"
# Percorso mv
MV="/bin/mv"
# Percorso di tr
TR="/usr/bin/tr"
# Percorso di cut
CUT="/usr/bin/cut"
# Percorso tcpserver
TCPSERVER="/usr/bin/tcpserver"
# Percorso cron
CRONTAB="/usr/bin/crontab"
# Percorso grep
GREP="/bin/grep"
# Percorsp sed
SED="/bin/sed"
# Percorso readlink
READLINK="/bin/readlink"
# Percorso stat
STAT="/usr/bin/stat"
# Percorso mosquito_pub
# # Installare con apt install mosquitto-clients
MOSQUITTO_PUB="/usr/bin/mosquitto_pub"
# Percorso di piGardenSched, se non definito non verranno gestire le schedulazioni di piGardenSched tramite api
#PIGARDENSCHED_PATH="/home/pi/piGardenSched/piGardenSched.sh"
# Se impostato con il valore 1, indica che il sistema gestisce elettrovalvole monostabili,
# se impostato a 0 il sistema gestirà elettrovalvole bistabili
EV_MONOSTABLE=0
# Id gpio usati per simulare il doppio deviatore con cui eseguire l'alimentazione alle elettrovalvole
SUPPLY_GPIO_1=2 # Physical 3 - wPi 8
SUPPLY_GPIO_2=3 # Physical 5 - wPi 9
# Stato dei due gpio per impartire l'alimentazione positiva alle elettrovalvole (aperta)
SUPPLY_GPIO_POS=0
# Stato dei due gpio per impartire l'alimentazione negativa alle elettrovalvole (chiusa)
SUPPLY_GPIO_NEG=1
# Stato di ingresso da assegnare al gpio per chiudere il rele
RELE_GPIO_CLOSE=0
# Stato di ingresso da assegnare al gpio per aprire il rele
RELE_GPIO_OPEN=1
# Id del gpio usato per collegare il sensore di rilevamento pioggia
# attraverso il driver rainsensorqty
RAIN_GPIO="drv:rainsensorqty:25" # Physical 22 - wPi 6
# Valore in ingresso sul gpio definito in RAIN_GPIO che indica lo stato di pioggia
# variabile usata anche da drv:rainsensorqty, se e' a 1, significa che il reed contact e' collegato ad un circuito pull-down, vuol dire che attende l'impulso a 1 per contare le vaschette, normalmente e' a 0.
# se e' a 0, significa che il reed contact e' collegato ad un circuito pull-up, vuol dire che attende l'impulso a 0 per contare le vaschette, normalmente e' a 0.
RAIN_GPIO_STATE=0
RAINSENSORQTY_LOOPSFORSETRAINING=16 # dopo 16 impulsi, 16 vaschette riempite si considera pioggia
RAINSENSORQTY_SECSBETWEENRAINEVENT=10800 # =3h, significa che dopo 3 ore si resetta il numero di vaschette riempire e solo dopo un nuovo ciclo di riempimento si considera una nuova pioggia
RAINSENSORQTY_MMEACH=0.33 # see RAINSENSORQTY driver readme for details
# Numero totale di elettrovalvole
EV_TOTAL=6
# Definizione delle elettrovalvole
EV1_ALIAS="1" #
EV1_GPIO=17 # Physical 11 - wPi 0
#EV1_NORAIN=1 # Non interrompe l'irrigazione di questa zona in caso di pioggia
#EV1_MONOSTABLE=1 # L'elettrovalvola è monostabile
EV2_ALIAS="2" #
EV2_GPIO=27 # Physical 13 - wPi 2
EV3_ALIAS="3" #
EV3_GPIO=22 # Physical 15 - wPi 3
EV4_ALIAS="4" #
EV4_GPIO=18 # Physical 12 - wPi 1
EV5_ALIAS="5" #
EV5_GPIO=23 # Physical 16 - wPi 4
EV6_ALIAS="6" #
EV6_GPIO=24 # Physical 18 - wPi 5
# Definisci il servizio online da utilizzare per il controllo delle condizioni meteo, puoi scegliere openweathermap oppure wunderground.
# Se non vuoi configurare nessun servizio imposta il vale "none"
WEATHER_SERVICE="openweathermap"
#WEATHER_SERVICE="none" # Nessun servizio configurato
# Parametri di openweathermap, definisce l'api key e il luogo per recuperare lo stato meteo online
OPENWEATHERMAP_KEY=""
OPENWEATHERMAP_LOCATION="q=Pieve%20a%20Nievole,it" # https://openweathermap.org/current
OPENWEATHERMAP_TZ="Europe/Rome" # Time zone
# Parametri di wunderground, definisce l'api key e il luogo per recuperare lo stato meteo online
WUNDERGROUND_KEY=""
WUNDERGROUND_LOCATION="IT/Pieve%20a%20Nievole" # http://www.wunderground.com/weather/api/d/docs?d=resources/country-to-iso-matching&MR=1
# Blocca l'irrigazione se l'ultima pioggia rilevata online è avvenuta nell'ultima quantità di tempo inserita.
# Il tempo è espresso in secondi. Quindi inserendo 86400, se nelle ultime 24 ore ha piovuto viene bloccata l'irrigazione. Inserendo il valore zero non viene eseguito nessun controllo.
NOT_IRRIGATE_IF_RAIN_ONLINE=86400
# Il parametro è simile a quello precedente, il controllo però anziché essere fatto attingendo a wunderground, viene eseguito direttamente sul sensore se installato. Inserendo il valore zero non viene eseguito nessun controllo.
NOT_IRRIGATE_IF_RAIN_SENSOR=86400
# Indirizzo ip e porta di ascolto del socket server
TCPSERVER_IP="127.0.0.1"
TCPSERVER_PORT="8084"
# Utente e password che i clients devono utilizzare per stabilire una connessione tramite socket server
TCPSERVER_USER=""
TCPSERVER_PWD=""
# Con impostato il valore 1 non invia l'identificativi per statistiche di utilizzo
NO_SEND_IDENTIFIER=0
# Parametri connessione al broker mqtt
MQTT_ENABLE=0 # set 1 to enable
MQTT_HOST=you_host_mqtt
MQTT_PORT=1883
MQTT_USER=your_user_mqtt
MQTT_PWD=yout_password_mqtt
MQTT_TOPIC="pigarden/result"
MQTT_CLIENT_ID=piGarden

37
conf/piGarden.conf.remote.example
View File

@@ -2,6 +2,14 @@
LOG_FILE="/home/pi/piGarden/log/piGarden.log"
LOG_FILE_MAX_SIZE=1048576 # 1MB
#
# Enable send log to piGardenWeb
#
#LOG_URL="http://url_of_your_pigardenweb/api/log"
#LOG_API_TOKEN="token_of_pigardenweb_user"
#LOG_CURL_PARAM="--data-urlencode -k"
# Log file for driver output
#LOG_OUTPUT_DRV_FILE="/tmp/piGarden.drv.log"
@@ -53,6 +61,14 @@ READLINK="/bin/readlink"
# Percorso stat
STAT="/usr/bin/stat"
# Percorso mosquito_pub
# Installare con apt install mosquitto-clients
MOSQUITTO_PUB="/usr/bin/mosquitto_pub"
# Percorso di piGardenSched, se non definito non verranno gestire le schedulazioni di piGardenSched tramite api
#PIGARDENSCHED_PATH="/home/pi/piGardenSched/piGardenSched.sh"
# Se impostato con il valore 1, indica che il sistema gestisce elettrovalvole monostabili,
# se impostato a 0 il sistema gestirà elettrovalvole bisstabili
EV_MONOSTABLE=0
@@ -100,11 +116,21 @@ EV4_ALIAS="Giardino_Posteriore_GPIO" #
EV4_GPIO="18"
# Definisci il servizio online da utilizzare per il controllo delle condizioni meteo, puoi scegliere openweathermap oppure wunderground.
# Se non vuoi configurare nessun servizio imposta il vale "none"
WEATHER_SERVICE="openweathermap"
#WEATHER_SERVICE="none" # Nessun servizio configurato
# Definisce l'api key e il luogo per recuperare lo stato meteo online
# Parametri di openweathermap, definisce l'api key e il luogo per recuperare lo stato meteo online
OPENWEATHERMAP_KEY=""
OPENWEATHERMAP_LOCATION="q=Pieve%20a%20Nievole,it" # https://openweathermap.org/current
OPENWEATHERMAP_TZ="Europe/Rome" # Time zone
# Parametri di wunderground, definisce l'api key e il luogo per recuperare lo stato meteo online
WUNDERGROUND_KEY=""
WUNDERGROUND_LOCATION="IT/Pieve%20a%20Nievole" # http://www.wunderground.com/weather/api/d/docs?d=resources/country-to-iso-matching&MR=1
# Blocca l'irrigazione se l'ultima pioggia rilevata online è avvenuta nell'ultima quantità di tempo inserita.
# Il tempo è espresso in secondi. Quindi inserendo 86400, se nelle ultime 24 ore ha piovuto viene bloccata l'irrigazione. Inserendo il valore zero non viene eseguito nessun controllo.
NOT_IRRIGATE_IF_RAIN_ONLINE=86400
@@ -123,6 +149,15 @@ TCPSERVER_PWD=""
# Con impostato il valore 1 non invia l'identificativi per statistiche di utilizzo
NO_SEND_IDENTIFIER=0
# Parametri connessione al broker mqtt
MQTT_ENABLE=0 # set 1 to enable
MQTT_HOST=you_host_mqtt
MQTT_PORT=1883
MQTT_USER=your_user_mqtt
MQTT_PWD=yout_password_mqtt
MQTT_TOPIC="pigarden/result"
MQTT_CLIENT_ID=piGarden
#
# Configurazione piGarden remoti

177
conf/piGarden.conf.sonoff_tasmota_http.example Normal file
View File

@@ -0,0 +1,177 @@
# Log file
LOG_FILE="/home/pi/piGarden/log/piGarden.log"
LOG_FILE_MAX_SIZE=1048576 # 1MB
#
# Enable send log to piGardenWeb
#
#LOG_URL="http://url_of_your_pigardenweb/api/log"
#LOG_API_TOKEN="token_of_pigardenweb_user"
#LOG_CURL_PARAM="--data-urlencode -k"
# Log file for driver output
#LOG_OUTPUT_DRV_FILE="/tmp/piGarden.drv.log"
# Status directory
STATUS_DIR="/home/pi/piGarden/state"
# Event directory
EVENT_DIR="/home/pi/piGarden/events"
# Posizione gpio
GPIO="/usr/local/bin/gpio"
# Posizione js
JQ="/usr/local/bin/jq"
# Percorso curl
CURL="/usr/bin/curl"
# Percorso wc
WC="/usr/bin/wc"
# Percorso gzip
GZIP="/bin/gzip"
# Percorso mv
MV="/bin/mv"
# Percorso di tr
TR="/usr/bin/tr"
# Percorso di cut
CUT="/usr/bin/cut"
# Percorso tcpserver
TCPSERVER="/usr/bin/tcpserver"
# Percorso cron
CRONTAB="/usr/bin/crontab"
# Percorso grep
GREP="/bin/grep"
# Percorsp sed
SED="/bin/sed"
# Percorso readlink
READLINK="/bin/readlink"
# Percorso stat
STAT="/usr/bin/stat"
# Percorso mosquito_pub
# # Installare con apt install mosquitto-clients
MOSQUITTO_PUB="/usr/bin/mosquitto_pub"
# Percorso di piGardenSched, se non definito non verranno gestire le schedulazioni di piGardenSched tramite api
#PIGARDENSCHED_PATH="/home/pi/piGardenSched/piGardenSched.sh"
# Se impostato con il valore 1, indica che il sistema gestisce elettrovalvole monostabili,
# se impostato a 0 il sistema gestirà elettrovalvole bisstabili
EV_MONOSTABLE=0
# Id gpio usati per simulare il doppio deviatore con cui eseguire l'alimentazione alle elettrovalvole
SUPPLY_GPIO_1=2
SUPPLY_GPIO_2=3
# Stato dei due gpio per impartire l'alimentazione positiva alle elettrovalvole (aperta)
SUPPLY_GPIO_POS=0
# Stato dei due gpio per impartire l'alimentazione negativa alle elettrovalvole (chiusa)
SUPPLY_GPIO_NEG=1
# Stato di ingresso da assegnare al gpio per chiudere il rele
RELE_GPIO_CLOSE=0
# Stato di ingresso da assegnare al gpio per aprire il rele
RELE_GPIO_OPEN=1
# Id del gpio usato per collegare il sensore di rilevamento pioggia
RAIN_GPIO=25 # Physical 22 - wPi 6
# Valore in ingresso sul gpio definito in RAIN_GPIO che indica lo stato di pioggia
RAIN_GPIO_STATE=0
# Numero totale di elettrovalvole
EV_TOTAL=4
# Definizione delle elettrovalvole
EV1_ALIAS="Giardino_Posteriore_DX"
EV1_GPIO="drv:sonoff_tasmota_http:SONOFF1:Power1"
EV1_MONOSTABLE=1
EV2_ALIAS="Giardino_Posteriore_CN"
EV2_GPIO="drv:sonoff_tasmota_http:SONOFF1:Power2"
EV2_MONOSTABLE=1
EV3_ALIAS="Giardino_Posteriore_SX"
EV3_GPIO="drv:sonoff_tasmota_http:SONOFF1:Power3"
EV3_MONOSTABLE=1
EV4_ALIAS="Giardino_Anteriore"
EV4_GPIO="drv:sonoff_tasmota_http:SONOFF2:Power1"
# Definisci il servizio online da utilizzare per il controllo delle condizioni meteo, puoi scegliere openweathermap oppure wunderground.
# Se non vuoi configurare nessun servizio imposta il vale "none"
WEATHER_SERVICE="openweathermap"
#WEATHER_SERVICE="none" # Nessun servizio configurato
# Parametri di openweathermap, definisce l'api key e il luogo per recuperare lo stato meteo online
OPENWEATHERMAP_KEY=""
OPENWEATHERMAP_LOCATION="q=Pieve%20a%20Nievole,it" # https://openweathermap.org/current
OPENWEATHERMAP_TZ="Europe/Rome" # Time zone
# Parametri di wunderground, definisce l'api key e il luogo per recuperare lo stato meteo online
WUNDERGROUND_KEY=""
WUNDERGROUND_LOCATION="IT/Pieve%20a%20Nievole" # http://www.wunderground.com/weather/api/d/docs?d=resources/country-to-iso-matching&MR=1
# Blocca l'irrigazione se l'ultima pioggia rilevata online è avvenuta nell'ultima quantità di tempo inserita.
# Il tempo è espresso in secondi. Quindi inserendo 86400, se nelle ultime 24 ore ha piovuto viene bloccata l'irrigazione. Inserendo il valore zero non viene eseguito nessun controllo.
NOT_IRRIGATE_IF_RAIN_ONLINE=86400
# Il parametro è simile a quello precedente, il controllo però anziché essere fatto attingendo a wunderground, viene eseguito direttamente sul sensore se installato. Inserendo il valore zero non viene eseguito nessun controllo.
NOT_IRRIGATE_IF_RAIN_SENSOR=86400
# Indirizzo ip e porta di ascolto del socket server
TCPSERVER_IP="127.0.0.1"
TCPSERVER_PORT="8084"
# Utente e password che i clients devono utilizzare per stabilire una connessione tramite socket server
TCPSERVER_USER=""
TCPSERVER_PWD=""
# Con impostato il valore 1 non invia l'identificativi per statistiche di utilizzo
NO_SEND_IDENTIFIER=0
# Parametri connessione al broker mqtt
MQTT_ENABLE=0 # set 1 to enable
MQTT_HOST=you_host_mqtt
MQTT_PORT=1883
MQTT_USER=your_user_mqtt
MQTT_PWD=yout_password_mqtt
MQTT_TOPIC="pigarden/result"
MQTT_CLIENT_ID=piGarden
#
# Configurazione moduli sonoff
#
SONOFF1_IP="192.168.1.1"
SONOFF1_USER="user"
SONOFF1_PWD="pwd"
SONOFF2_IP="192.168.1.21"
SONOFF2_USER=""
SONOFF2_PWD=""

40
conf/piGarden.conf.spb16ch.example
View File

@@ -2,6 +2,14 @@
LOG_FILE="/home/pi/piGarden/log/piGarden.log"
LOG_FILE_MAX_SIZE=1048576 # 1MB
#
# Enable send log to piGardenWeb
#
#LOG_URL="http://url_of_your_pigardenweb/api/log"
#LOG_API_TOKEN="token_of_pigardenweb_user"
#LOG_CURL_PARAM="--data-urlencode -k"
# Log file for driver output
#LOG_OUTPUT_DRV_FILE="/tmp/piGarden.drv.log"
@@ -53,6 +61,14 @@ READLINK="/bin/readlink"
# Percorso stat
STAT="/usr/bin/stat"
# Percorso mosquito_pub
# Installare con apt install mosquitto-clients
MOSQUITTO_PUB="/usr/bin/mosquitto_pub"
# Percorso di piGardenSched, se non definito non verranno gestire le schedulazioni di piGardenSched tramite api
#PIGARDENSCHED_PATH="/home/pi/piGardenSched/piGardenSched.sh"
# Se impostato con il valore 1, indica che il sistema gestisce elettrovalvole monostabili,
# se impostato a 0 il sistema gestirà elettrovalvole bisstabili
EV_MONOSTABLE=1
@@ -472,9 +488,20 @@ EV128_ALIAS="Zona_128" #
EV128_GPIO="drv:spb16ch:128"
# Definisce l'api key e il luogo per recuperare lo stato meteo online
# Definisci il servizio online da utilizzare per il controllo delle condizioni meteo, puoi scegliere openweathermap oppure wunderground.
# Se non vuoi configurare nessun servizio imposta il vale "none"
WEATHER_SERVICE="openweathermap"
#WEATHER_SERVICE="none" # Nessun servizio configurato
# Parametri di openweathermap, definisce l'api key e il luogo per recuperare lo stato meteo online
OPENWEATHERMAP_KEY=""
OPENWEATHERMAP_LOCATION="q=Pieve%20a%20Nievole,it" # https://openweathermap.org/current
OPENWEATHERMAP_TZ="Europe/Rome" # Time zone
# Parametri di wunderground, definisce l'api key e il luogo per recuperare lo stato meteo online
WUNDERGROUND_KEY=""
WUNDERGROUND_LOCATION="IY/Monsummano" # http://www.wunderground.com/weather/api/d/docs?d=resources/country-to-iso-matching&MR=1
WUNDERGROUND_LOCATION="IT/Pieve%20a%20Nievole" # http://www.wunderground.com/weather/api/d/docs?d=resources/country-to-iso-matching&MR=1
# Blocca l'irrigazione se l'ultima pioggia rilevata online è avvenuta nell'ultima quantità di tempo inserita.
# Il tempo è espresso in secondi. Quindi inserendo 86400, se nelle ultime 24 ore ha piovuto viene bloccata l'irrigazione. Inserendo il valore zero non viene eseguito nessun controllo.
@@ -494,6 +521,15 @@ TCPSERVER_PWD=""
# Con impostato il valore 1 non invia l'identificativi per statistiche di utilizzo
NO_SEND_IDENTIFIER=0
# Parametri connessione al broker mqtt
MQTT_ENABLE=0 # set 1 to enable
MQTT_HOST=you_host_mqtt
MQTT_PORT=1883
MQTT_USER=your_user_mqtt
MQTT_PWD=yout_password_mqtt
MQTT_TOPIC="pigarden/result"
MQTT_CLIENT_ID=piGarden
#
# Configurazione schede spb16ch

13
drv/openweathermap/README.md Normal file
View File

@@ -0,0 +1,13 @@
# Driver for check wather condition with openweathermap online service
# Example of configuration in piGarden.conf
```bash
WEATHER_SERVICE="openweathermap"
OPENWEATHERMAP_KEY="d4d22ea805788420267971135563b4cc" # Set with your api key of openweathermap
OPENWEATHERMAP_LOCATION="q=Pieve%20a%20Nievole,it" # Set with location identify, see https://openweathermap.org/current
OPENWEATHERMAP_TZ="Europe/Rome" # Set with your time zone
```

123
drv/openweathermap/common.include.sh Normal file
View File

@@ -0,0 +1,123 @@
#
# Funzioni comuni utilizzate dal driver
#
#
# Recupera la descrizione della condizione meteo
#
# $1 condizione meteo recuperata dalle api
#
function drv_openweathermap_get_wather {
declare -A w
w["thunderstorm with light rain"]="Thunderstorms and Rain"
w["thunderstorm with rain"]="Thunderstorms and Rain"
w["thunderstorm with heavy rain"]="Thunderstorms and Rain"
w["light thunderstorm"]="Thunderstorm"
w["thunderstorm"]="Thunderstorm"
w["heavy thunderstorm"]="Thunderstorm"
w["ragged thunderstorm"]="Thunderstorm"
w["thunderstorm with light drizzle"]="Thunderstorms and Rain"
w["thunderstorm with drizzle"]="Thunderstorms and Rain"
w["thunderstorm with heavy drizzle"]="Thunderstorms and Rain"
w["light intensity drizzle"]="Drizzle"
w["drizzle"]="Drizzle"
w["heavy intensity drizzle"]="Drizzle"
w["light intensity drizzle rain"]="Drizzle"
w["drizzle rain"]="Drizzle"
w["heavy intensity drizzle rain"]="Drizzle"
w["shower rain and drizzle"]="Drizzle"
w["heavy shower rain and drizzle"]="Drizzle"
w["shower drizzle"]="Drizzle"
w["light rain"]="Rain Mist"
w["moderate rain"]="Rain"
w["heavy intensity rain"]="Rain"
w["very heavy rain"]="Rain"
w["extreme rain"]="Rain"
w["freezing rain"]="Freezing Rain"
w["light intensity shower rain"]="Rain"
w["shower rain"]="Rain"
w["heavy intensity shower rain"]="Rain"
w["ragged shower rain"]="Rain"
w["light snow"]="Snow"
w["snow"]="Snow"
w["heavy snow"]=""
w["sleet"]="Snow Grains"
w["shower sleet"]="Snow Grains"
w["light rain and snow"]="Snow"
w["rain and snow"]="Snow"
w["light shower snow"]="Snow"
w["shower snow"]="Snow"
w["heavy shower snow"]="Snow"
w["mist"]="Mist"
w["smoke"]="Smoke"
w["haze"]="Haze"
w["sand, dust whirls"]="Dust Whirls"
w["fog"]="Fog"
w["sand"]="Sand"
w["dust"]="Widespread Dust"
w["volcanic ash"]="Volcanic Ash"
w["squalls"]="Squalls"
w["tornado"]="Tornado"
w["clear sky"]="Clear"
w["few clouds"]="Partly Cloudy"
w["scattered clouds"]="Scattered Clouds"
w["broken clouds"]="Partly Cloudy"
w["overcast clouds"]="Mostly Cloudy"
local weather=${w[$1]}
if [ -z "$weather" ]; then
weather="$1"
fi
echo $weather
}
#
# Recupera la l'icona rappresentativa delle condizione meteo
#
# $1 nome dell'icona recuperato delle api weather.icon
#
function drv_openweathermap_get_ico {
declare -A w
w["01d"]="http://www.wunderground.com/static/i/c/k/clear.gif"
w["01n"]="http://www.wunderground.com/static/i/c/k/nt_clear.gif"
w["02d"]="http://www.wunderground.com/static/i/c/k/partlycloudy.gif"
w["02n"]="http://www.wunderground.com/static/i/c/k/nt_partlycloudy.gif"
w["03d"]="http://www.wunderground.com/static/i/c/k/cloudy.gif"
w["03n"]="http://www.wunderground.com/static/i/c/k/nt_cloudy.gif"
w["04d"]="http://www.wunderground.com/static/i/c/k/cloudy.gif"
w["04n"]="http://www.wunderground.com/static/i/c/k/nt_cloudy.gif"
w["09d"]="http://www.wunderground.com/static/i/c/k/sleet.gif"
w["09n"]="http://www.wunderground.com/static/i/c/k/nt_sleet.gif"
w["10d"]="http://www.wunderground.com/static/i/c/k/rain.gif"
w["10n"]="http://www.wunderground.com/static/i/c/k/nt_rain.gif"
w["11d"]="http://www.wunderground.com/static/i/c/k/tstorms.gif"
w["11n"]="http://www.wunderground.com/static/i/c/k/nt_tstorms.gif"
w["13d"]="http://www.wunderground.com/static/i/c/k/snow.gif"
w["13n"]="http://www.wunderground.com/static/i/c/k/nt_snow.gif"
w["50d"]="http://www.wunderground.com/static/i/c/k/fog.gif"
w["50n"]="http://www.wunderground.com/static/i/c/k/nt_fog.gif"
local ico=${w[$1]}
if [ -z "$ico" ]; then
ico="$1"
fi
echo $ico
}

74
drv/openweathermap/rainonline.include.sh Normal file
View File

@@ -0,0 +1,74 @@
#
# Ritorna lo stato delle condizioni meteo interrogando il servizio online
#
# $i identificativo gpio del sensore di pioggia
#
# return output: 0 - errore durante il recupero delle condizioni meteo
# >0 - rilevato pioggia, timestamp del rilevamento
# <0 - rilevato nessuna pioggia, timestamp del rilevamento
function drv_openweathermap_rain_online_get {
# http://www.wunderground.com/weather/api/d/docs?d=resources/phrase-glossary&MR=1
$CURL "http://api.openweathermap.org/data/2.5/weather?$OPENWEATHERMAP_LOCATION&units=metric&appid=$OPENWEATHERMAP_KEY" > $TMP_PATH/check_rain_online.openweathermap.json
local weather=`cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -M ".weather[0].main"`
local wind_deg=$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".wind.deg")
local wind_speed=$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".wind.speed")
if [ "$wind_speed" == "null" ]; then
#wind_speed=$($JQ -n $wind_speed*3600/1000)
wind_speed=0
fi
local weather="$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".weather[0].description")"
local ico=$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".weather[0].icon")
weather=$(drv_openweathermap_get_wather "$weather")
ico=$(drv_openweathermap_get_ico "$ico")
local current_observation=$(cat <<EOF
{
"display_location": {
"city": "$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".name")"
},
"observation_epoch": "$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".dt")",
"local_epoch": "$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".dt")",
"local_tz_long": "$OPENWEATHERMAP_TZ",
"weather": "$weather",
"temp_c": "$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".main.temp")",
"relative_humidity": "$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".main.humidity")%",
"wind_dir": "$(deg2dir $wind_deg)",
"wind_degrees": "$wind_deg",
"wind_kph": "$wind_speed",
"wind_gust_kph": "--",
"pressure_mb": "$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".main.pressure")",
"dewpoint_c": "--",
"feelslike_c": "--",
"icon_url": "$ico"
}
EOF
)
# "icon_url": "http://openweathermap.org/img/w/$(cat $TMP_PATH/check_rain_online.openweathermap.json | $JQ -r -M ".weather[0].icon").png"
#local current_observation=`cat $TMP_PATH/check_rain_online.json | $JQ -M ".current_observation"`
if [ "$weather" = "null" ]; then
echo "0"
else
echo "$current_observation" > "$STATUS_DIR/last_weather_online"
local local_epoch=`cat $STATUS_DIR/last_weather_online | $JQ -M -r ".local_epoch"`
if [[ "$weather" == *"Rain"* ]] ||
[[ "$weather" == *"Snow"* ]] ||
[[ "$weather" == *"Hail"* ]] ||
[[ "$weather" == *"Ice"* ]] ||
[[ "$weather" == *"Thunderstorm"* ]] ||
[[ "$weather" == *"Drizzle"* ]];
then
echo $local_epoch
else
echo "-$local_epoch"
fi
fi
}

4
drv/rainsensorqty/.gitignore vendored Normal file
View File

@@ -0,0 +1,4 @@
# Ignore everything in this directory
.set_var
# Except this file
!.gitignore

124
drv/rainsensorqty/README.md Normal file
View File

@@ -0,0 +1,124 @@
#
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file README.md
# Version: 0.2.5
# Data: 07/Apr/2020
FILE DI CONFIGURAZIONE /etc/piGarden.conf:
-----------------------------------------
NOTA: vedere nella directory conf_example il file esempio piu' aggiornato!
per attivare il driver e' necessario inserire la seguente variabile nel file di configurazion
RAIN_GPIO="drv:rainsensorqty:25" # Physical 22 - wPi 6
la variabile seguente e' impiegata anche da drv_rainsensorqty per rilevare la chiusura del contatto magnetico che, in un circuito pull-up, e' lo stato 1.
# Valore in ingresso sul gpio definito in RAIN_GPIO che indica lo stato di pioggia
RAIN_GPIO_STATE=1
le seguenti variabili controllano il driver come descritto:
RAINSENSORQTY_LOOPSFORSETRAINING=16 # dopo 16 impulsi, 16 vaschette riempite si considera pioggia
RAINSENSORQTY_SECSBETWEENRAINEVENT=10800 # =3h, significa che dopo 3 si resetta il numero di vaschette da riempire e solo dopo il riempimento del nuovo numero di vaschette si considera una nuova pioggia
infine la variabile seguente e' la quantita' di acqua espressa in mm di precipitazioni:
RAINSENSORQTY_MMEACH=0.33 # see RAINSENSORQTY driver readme for details
CALIBRAZIONE SENSORE PIOGGIA
----------------------------
secondo il seguente processo da me effettuato sul mio misuratore di pioggia:
Ho erogato 18 ml di acqua nel rain gauge che hanno prodotto 10 impulsi; pertanto il riempimento di 1.8 ml ha causato un impulso, 1 ml = 1000 mmc (mm cubici),
1.8 ml sono pari a 1800 mmc
la superficie della vaschetta in mmq e' pari a 110 mm x 55 mm = 5500 mmq
volume / superficie mi da' l'altezza, quindi 1800 mmc / 5500 mmq = 0.32727273 mm
se fossero stati 1.7 ml di acqua per ogni impulso/vaschetta riempita, la variabile sarebbe stata impostata a 0.30909091 mm
COMANDI SPECIALI
----------------
nella sottodirectory command sono presenti:
commands/rainsensorqty_CHECK.sh
chiama la funzione di verifica pioggia, la medesima chiamata da check_rain_sensor
commands/rainsensorqty_HISTORY.sh
visualizza lo storico della pioggia consultando il file $RAINSENSORQTY_HISTORY
puo' essere lanciato con l''opzione -force per ricostruire il file $RAINSENSORQTY_HISTORY dal $RAINSENSORQTY_HISTORYRAW
e con un argomento X, che permette di evidenziare solo gli ultimi X eventi
commands/rainsensorqty_HISTORYRAW.sh
visualizza lo storico della pioggia consultando il file $RAINSENSORQTY_HISTORYRAW
puo' essere lanciato senza argomenti per processare l'intero file, chiede conferma visto che i tempi sono potenzialmente lunghi
con un argomento X, che permette di evidenziare solo gli ultimi X eventi
commands/rainsensorqty_INIT.sh
inizializza il driver eseguendo lo script di monitoring - normalmente tale processo avviene da piGarden.sh
utile quando si vuole testare dei cambiamenti o se necessario riavviare dopo il kill del comando successivo
commands/rainsensorqty_KILL.sh
killa i processi di monitoring ed eventuali figli
commands/rainsensorqty_RAINNOW.sh
simula una pioggia registrandola in $RAINSENSORQTY_LASTRAIN $RAINSENSORQTY_HISTORY $RAINSENSORQTY_HISTORYRAW
puo' essere lanciato in 3 modi:
senza argomenti: genera una pioggia per un numero di loop pari al valore della variabile RAINSENSORQTY_LOOPSFORSETRAINING, quindi una pioggia completa
con un argomento: che indica quanti loop
con due argomenti: quanti loop e quanti secondi tra uno e l'altro
commands/rainsensorqty_REMOVELASTRAIN.sh
rimuove dai file $RAINSENSORQTY_LASTRAIN $RAINSENSORQTY_HISTORY $RAINSENSORQTY_HISTORYRAW l'ultima pioggia registrata
commands/rainsensorqty_RESET.sh
invia il SIGUSR1 al processo di monitor per resettare i cicli. Viene visualizzato il reset solo dopo il successivo PULSE, questo perche' non e' possibile per lo script ricevere il trap in quanto il processo $GPIO e' attivo in attesa del PULSE
questi i timestamps alla data del file:
-rwxr-xr-x 1 pi pi 1044 Sep 24 18:26 rainsensorqty_CHECK.sh
-rwxr-xr-x 1 pi pi 1139 Nov 28 00:17 rainsensorqty_HISTORYRAW.sh
-rwxr-xr-x 1 pi pi 1462 Nov 19 00:19 rainsensorqty_HISTORY.sh
-rwxr-xr-x 1 pi pi 596 Sep 24 18:26 rainsensorqty_INIT.sh
-rwxr-xr-x 1 pi pi 1300 Sep 24 18:26 rainsensorqty_KILL.sh
-rwxr-xr-x 1 pi pi 1111 Nov 27 00:05 rainsensorqty_RAINNOW.sh
-rwxr-xr-x 1 pi pi 1252 Nov 22 00:18 rainsensorqty_REMOVELASTRAIN.sh
-rwxr-xr-x 1 pi pi 897 Sep 24 18:26 rainsensorqty_RESET.sh
ULTERIORI VARIABILI in config.include.sh
----------------------------------------
esistono ulteriori variabili che potrebbe essere necessario variare
RAINSENSOR_DEBOUNCE=0.3 # 0.3 seconds for manage debounce of reed contact
serve per ritardare la lettura di un secondo impulso falso causato dal rimbalzo del contatto magnetico
RAINSENSORQTY_verbose="yes"
aumenta il livello di verbosita' nei file di log
RAINSENSORQTY_LASTRAIN="$STATUS_DIR/rainsensorqty_lastrain"
memorizza l'ultima pioggia
RAINSENSORQTY_HISTORY="$STATUS_DIR/rainsensorqty_history"
memorizza tutte le piogge permettendo di visualizzare lo storico (commands/rainsensorqty_HISTORY.sh)
RAINSENSORQTY_HISTORYRAW="$STATUS_DIR/rainsensorqty_history.raw"
memorizza in formato grezzo (raw) tutti gli impulsi registrati (formato: "secondi:impulsi" ) - consultabile il contenuto con commands/rainsensorqty_HISTORYRAW.sh
RAINSENSORQTY_MONITORLOG="$DIR_SCRIPT/log/rainsensorqty_monitor.log"
log dello script di monitoring, popolato solo se RAINSENSORQTY_verbose="yes"
RAINSENSORQTY_MONPID="$TMPDIR/rainsensorqty_monitor.pid"
file che viene popolato con il pid dello script di monitoring
RAINSENSORQTY_DIR="$DIR_SCRIPT/drv/rainsensorqty"
home directory del driver
monitor_sh="$RAINSENSORQTY_DIR/drv_rainsensorqty_monitor.sh"
script di monitoring
lo script eredita le variabili di ambiente da $RAINSENSORQTY_VAR ($TMPDIR/.rainsensorqty_var)
NOTA: $TMPDIR e' /tmp e lo script visualizza un warning se non e' un tmpfs
# internal gpio resistor, 3 values: pull-up, pull-down, none
# pull-up/down if rain gauge is connected directly to raspberry
# none if connected through an optocoupler circuit
GPIO_RESISTOR="none" #pull-up|pull-down|none
enable pull-up or pull-down resistor: https://raspberry-projects.com/pi/pi-hardware/raspberry-pi-model-b-plus/model-b-plus-io-pins
Pull-up is 50K min - 65K max.
Pull-down is 50K min - 60K max.
#rising means waiting for 1 status (from 0)
#falling means waiting for 0 status (from 1)
#RAINSENSORQTY_PULSE=rising # pull-down circuit (rest status is 0)
#RAINSENSORQTY_PULSE=falling # pull-up circuit (rest status is 1)
(( RAIN_GPIO_STATE == 1 )) && RAINSENSORQTY_PULSE=rising # pull-down circuit (rest status is 0)
(( RAIN_GPIO_STATE == 0 )) && RAINSENSORQTY_PULSE=falling # pull-up circuit (rest status is 1)
lo script di monitoring ascolta il cambiamento di stato da quello di riposo allo stato di impulso (chiusura del contatto reed).
dipendentemente dal circuto implementato, se lo stato di riposo e' 0, lo script attende la variazione verso 1 (rising)
se lo stato di riposo e' 1, lo script attende la variazione verso 0 (falling)
la variabile RAINSENSORQTY_PULSE viene impostata secondo il valore di RAIN_GPIO_STATE presente in /etc/piGarden.conf
cioe' il valore che ci si aspetta per registrare il riempimento della vaschetta dello stato di pioggia

0
drv/rainsensorqty/_version_0.2.5c Normal file
View File

35
drv/rainsensorqty/commands/rainsensorqty_CHECK.sh Executable file
View File

@@ -0,0 +1,35 @@
#!/bin/bash
#
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "rainsensorqty_CHECK.sh"
# test script for checking rain status using drv_rainsensorqty_rain_sensor_get function
# Version: 0.2.0
# Data: 11/Aug/2019
SCRIPTDIR="$(cd `dirname $0` ; pwd )"
SCRIPTNAME=${0##*/}
cd $SCRIPTDIR/.. # command is a subdirectory of driver
DIR_SCRIPT=/home/pi/piGarden # home directory of piGarden
CONFIG_ETC="/etc/piGarden.conf"
LOG_OUTPUT_DRV_FILE="$DIR_SCRIPT/log/$LOG_OUTPUT_DRV_FILE"
. $CONFIG_ETC
. ./common.include.sh
. ./config.include.sh
. ./init.include.sh
. ./rainsensor.include.sh
# restituisce 0 se piove, e nell'output di testo il valore di "$RAIN_GPIO_STATE"
# restituisce 99 se non piove, output "norain"
# esce con 1 se non c'e' il monitoring, output "ERROR"
drv_rainsensorqty_rain_sensor_get
case $? in
0) echo "NORMAL: it's raining" ;;
99) echo "NORMAL: it's not raining" ;;
1) echo "ERROR: monitor process $DIR_SCRIPT/drv/rainsensorqty/drv_rainsensorqty_monitor.sh is not running" ;;
esac

59
drv/rainsensorqty/commands/rainsensorqty_HISTORY.sh Executable file
View File

@@ -0,0 +1,59 @@
#!/bin/bash
#
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "rainsensorqty_CHECK.sh"
# test script for checking rain status using drv_rainsensorqty_rain_sensor_get function
# Version: 0.2.5
# Data: 08/Jan/2020
SCRIPTDIR="$(cd `dirname $0` ; pwd )"
SCRIPTNAME=${0##*/}
cd $SCRIPTDIR/.. # command is a subdirectory of driver
DIR_SCRIPT=/home/pi/piGarden # home directory of piGarden
CONFIG_ETC="/etc/piGarden.conf"
LOG_OUTPUT_DRV_FILE="$DIR_SCRIPT/log/$LOG_OUTPUT_DRV_FILE"
. $CONFIG_ETC
. ./common.include.sh
. ./config.include.sh
. ./init.include.sh
. ./rainsensor.include.sh
if [[ $1 = "-force" ]] ; then
if [[ -s $RAINSENSORQTY_HISTORY ]] ; then
echo backup $RAINSENSORQTY_HISTORY to ${RAINSENSORQTY_HISTORY}.old$$
cp $RAINSENSORQTY_HISTORY ${RAINSENSORQTY_HISTORY}.old$$
fi
echo "generate all rain events to $RAINSENSORQTY_HISTORY"
if ! rainevents > ${RAINSENSORQTY_HISTORY} ; then
echo "WARNING: rainevents function had error"
fi
shift
fi
if ! rain_history tmp ; then # update rain history with last rain if not
echo "WARNING: rain_history function had error"
fi
cmd="cat"
if [[ $# > 0 ]] ; then
if (( $1 >= 1 )) ; then
echo "processing last $1 lines of $RAINSENSORQTY_HISTORYRAW file"
cmd="tail -$1"
else
echo "argument not recognized - exit"
exit 1
fi
fi
echo -e "\n\n"
if [[ -s $RAINSENSORQTY_HISTORY ]] ; then
echo "RAIN HISTORY"
cat $RAINSENSORQTY_HISTORY $RAINSENSORQTY_HISTORYTMP | $cmd | rain_when_amount
else
echo "WARNING: no \$RAINSENSORQTY_HISTORY file"
fi

50
drv/rainsensorqty/commands/rainsensorqty_HISTORYRAW.sh Executable file
View File

@@ -0,0 +1,50 @@
#!/bin/bash
#
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "rainsensorqty_CHECK.sh"
# test script for checking rain status using drv_rainsensorqty_rain_sensor_get function
# Version: 0.2.5
# Data: 07/Apr/2020
SCRIPTDIR="$(cd `dirname $0` ; pwd )"
SCRIPTNAME=${0##*/}
cd $SCRIPTDIR/.. # command is a subdirectory of driver
DIR_SCRIPT=/home/pi/piGarden # home directory of piGarden
CONFIG_ETC="/etc/piGarden.conf"
LOG_OUTPUT_DRV_FILE="$DIR_SCRIPT/log/$LOG_OUTPUT_DRV_FILE"
. $CONFIG_ETC
. ./common.include.sh
. ./config.include.sh
. ./init.include.sh
. ./rainsensor.include.sh
if [[ $# = 0 ]] ; then
cmd=cat
echo "processing all entire $RAINSENSORQTY_HISTORYRAW file, will go on? (y/n)"
read answer
echo $answer
[[ $answer = [yY] ]] || exit 1
else
if (( $1 >= 1 )) ; then
echo "processing $1 lines of $RAINSENSORQTY_HISTORYRAW file"
cmd="tail -$1"
else
echo "argument not recognized - exit"
exit 1
fi
fi
echo -e "\n\n"
$cmd $RAINSENSORQTY_HISTORYRAW | while read line
do
set -- ${line//:/ }
secs=$1
counter=$2
echo "$(sec2date $1):$counter"
done

25
drv/rainsensorqty/commands/rainsensorqty_INIT.sh Executable file
View File

@@ -0,0 +1,25 @@
#!/bin/bash
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "rainsensorqty_INIT.sh"
# test script for initialize driver and executing monitor process
# Version: 0.2.0
# Data: 11/Aug/2019
SCRIPTDIR="$(cd `dirname $0` ; pwd )"
SCRIPTNAME=${0##*/}
cd $SCRIPTDIR/.. # command is a subdirectory of driver
DIR_SCRIPT=/home/pi/piGarden # home directory of piGarden
CONFIG_ETC="/etc/piGarden.conf"
. $CONFIG_ETC
. ./config.include.sh
. ./common.include.sh
. ./init.include.sh
. ./rainsensor.include.sh
drv_rainsensorqty_rain_sensor_init
drv_rainsensorqty_init

52
drv/rainsensorqty/commands/rainsensorqty_KILL.sh Executable file
View File

@@ -0,0 +1,52 @@
#!/bin/bash
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "rainsensorqty_KILL.sh"
# script for killing monitor process(es)
# Version: 0.2.0a
# Data: 29/Aug/2019
SCRIPTDIR="$(cd `dirname $0` ; pwd )"
SCRIPTNAME=${0##*/}
cd $SCRIPTDIR/.. # command is a subdirectory of driver
DIR_SCRIPT=/home/pi/piGarden # home directory of piGarden
CONFIG_ETC="/etc/piGarden.conf"
. $CONFIG_ETC
. ./config.include.sh
. ./common.include.sh
. ./init.include.sh
. ./rainsensor.include.sh
# check if rain monitor process is running...
if [[ -f "$RAINSENSORQTY_MONPID" ]] ; then
pid="$( < "$RAINSENSORQTY_MONPID" )"
if ps -fp $pid >/dev/null ; then
echo "process $pid pid and its child(ren)"
children_pid="$(ps -ef| awk "\$3==$pid {print \$2}")"
ps -fp $pid
ps -fp $children_pid | tail +2
echo -e "\nsending TERM signal to $pid and its child(ren)"
echo kill $children_pid
echo kill $pid
kill $children_pid
kill $pid
echo -e "\nchecking $pid pid and its child(ren) are still alive"
for process in $pid $children_pid
do
if ps -fp $process >/dev/null ; then
echo "$process is still alive"
else
echo "$process is dead"
fi
done
else
echo "no RAIN process alive"
fi
else
echo "no RAIN process alive"
fi

67
drv/rainsensorqty/commands/rainsensorqty_RAINNOW.sh Executable file
View File

@@ -0,0 +1,67 @@
#!/bin/bash
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "rainsensorqty_RAINNOW.sh"
# test script for simulate rain ... now!
# Version: 0.2.5
# Data: 07/Apr/2020
SCRIPTDIR="$(cd `dirname $0` ; pwd )"
SCRIPTNAME=${0##*/}
cd $SCRIPTDIR/.. # command is a subdirectory of driver
DIR_SCRIPT=/home/pi/piGarden # home directory of piGarden
CONFIG_ETC="/etc/piGarden.conf"
. $CONFIG_ETC
. ./config.include.sh
. ./common.include.sh
. ./init.include.sh
. ./rainsensor.include.sh
wait=0
timestart=$( date +%s)
if [[ $# -ne 0 ]] ; then
if [[ $# = 1 ]] ; then
howmany=$1
echo "one argument passed: rain event for $howmany loops"
(( time = timestart - howmany ))
elif [[ $# = 2 ]] ; then
howmany=$1
wait=$2
echo "two arguments passed: rain event for $howmany loops every $wait seconds"
(( time = timestart ))
else
echo "too many arguments... exit"
exit 1
fi
else
howmany=$RAINSENSORQTY_LOOPSFORSETRAINING
(( time = timestart - $RAINSENSORQTY_LOOPSFORSETRAINING ))
fi
echo "RAIN now! (for $howmany loops)"
for (( c=1; c<=$howmany; c++ ))
do
if (( wait > 0 )) ; then
time=$( date +%s)
else
(( time+= 1 ))
fi
linetoadd="$time:$c"
echo $linetoadd >> $RAINSENSORQTY_HISTORYRAW
sleep $wait
echo -e ".\c"
done
echo
if ! rain_history ; then # update rain history with last rain if not
echo "WARNING: rain_history function had error"
fi
echo $linetoadd > ${RAINSENSORQTY_LASTRAIN}
echo "file ${RAINSENSORQTY_LASTRAIN} updated."
echo "last 2 rain events:"
tail -2 $RAINSENSORQTY_HISTORY | rain_when_amount

44
drv/rainsensorqty/commands/rainsensorqty_REMOVELASTRAIN.sh Executable file
View File

@@ -0,0 +1,44 @@
#!/bin/bash
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "test_rainsensorqty_CHECK.sh"
# test script for checking rain status using drv_rainsensorqty_rain_sensor_get function
# Version: 0.2.5
# Data: 07/Apr/2020
SCRIPTDIR="$(cd `dirname $0` ; pwd )"
SCRIPTNAME=${0##*/}
cd $SCRIPTDIR/.. # command is a subdirectory of driver
DIR_SCRIPT=/home/pi/piGarden # home directory of piGarden
CONFIG_ETC="/etc/piGarden.conf"
LOG_OUTPUT_DRV_FILE="$DIR_SCRIPT/log/$LOG_OUTPUT_DRV_FILE"
. $CONFIG_ETC
. ./common.include.sh
. ./config.include.sh
. ./init.include.sh
. ./rainsensor.include.sh
# two variables for store rain data
# RAINSENSORQTY_LASTRAIN
# RAINSENSORQTY_HISTORY
echo "RAIN HISTORY - last two events"
tail -2 $RAINSENSORQTY_HISTORY
tail -2 $RAINSENSORQTY_HISTORY | rain_when_amount
echo "...removing last event"
removelastrain
echo "...rebuilding ${RAINSENSORQTY_HISTORY} from ${RAINSENSORQTY_HISTORYRAW}"
if ! rainevents > ${RAINSENSORQTY_HISTORY} ; then
echo "WARNING: rainevents function had error"
fi
tail -1 ${RAINSENSORQTY_HISTORYRAW} > ${RAINSENSORQTY_LASTRAIN}
echo -e "\nnew RAIN HISTORY - last two events"
tail -2 $RAINSENSORQTY_HISTORY
tail -2 $RAINSENSORQTY_HISTORY | rain_when_amount

35
drv/rainsensorqty/commands/rainsensorqty_RESET.sh Executable file
View File

@@ -0,0 +1,35 @@
#!/bin/bash
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "rainsensorqty_RESET.sh"
# script for reset counter in monitor script
# Version: 0.2.0a
# Data: 29/Aug/2019
SCRIPTDIR="$(cd `dirname $0` ; pwd )"
SCRIPTNAME=${0##*/}
cd $SCRIPTDIR/.. # command is a subdirectory of driver
DIR_SCRIPT=/home/pi/piGarden # home directory of piGarden
CONFIG_ETC="/etc/piGarden.conf"
. $CONFIG_ETC
. ./config.include.sh
. ./common.include.sh
. ./init.include.sh
. ./rainsensor.include.sh
# check if rain monitor process is running...
if [[ -f "$RAINSENSORQTY_MONPID" ]] ; then
pid="$( < "$RAINSENSORQTY_MONPID" )"
if ps -fp $pid >/dev/null ; then
echo "sending SIGUSR1 to $pid"
kill -SIGUSR1 $pid
echo -e "sent SIGUSR1 - reset will be shown after next cycle"
else
echo "no RAIN process alive"
fi
else
echo "no RAIN process alive"
fi

1
drv/rainsensorqty/commands/test_pulse Executable file
View File

@@ -0,0 +1 @@
echo 1 > /tmp/tick ; sleep 0.9 ; echo 0 > /tmp/tick

203
drv/rainsensorqty/common.include.sh Normal file
View File

@@ -0,0 +1,203 @@
#
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "common.include.sh"
# common functions used by driver
# Version: 0.2.5
# Data: 08/Jan/2020
#note:
#RAINSENSORQTY_MONPID="$TMPDIR/rainsensorqty_monitor.pid"
#
sec2date()
{
date --date="@$1"
}
d() # short date & time
{
date '+%X-%x'
}
drv_rainsensorqty_writelog()
{
#2 variables - $1 function, $2 message
if [[ $2 =~ ERROR || $2 =~ WARNING || $2 =~ RAIN || $RAINSENSORQTY_verbose = yes ]] ; then
echo -e "$1 - `d`\t\t$2" >> "$LOG_OUTPUT_DRV_FILE"
# if [[ $($WC -c <"$LOG_OUTPUT_DRV_FILE") > $LOG_FILE_MAX_SIZE )) ; then
# $GZIP "$LOG_OUTPUT_DRV_FILE"
# $MV "${LOG_OUTPUT_DRV_FILE}.gz" "${LOG_OUTPUT_DRV_FILE}.$(date +%Y%m%d%H%M).gz"
# fi
fi
}
drv_rainsensorqty_check()
{
local f="drv_rainsensorqty_check"
if [[ -f "$RAINSENSORQTY_MONPID" ]] ; then
local pid=$( < "$RAINSENSORQTY_MONPID" )
drv_rainsensorqty_writelog $f "NORMAL: checking if $pid pid is running"
if ps -fp $pid >/dev/null ; then
drv_rainsensorqty_writelog $f "NORMAL: $pid pid is running"
return 0
else
drv_rainsensorqty_writelog $f "ERROR: $pid pid monitor process NOT running - $RAINSENSORQTY_MONPID file contains $pid"
return 1
fi
else
drv_rainsensorqty_writelog $f "ERROR: no raining monitor process file \$RAINSENSORQTY_MONPID"
return 1
fi
}
en_echo() # enhanched echo - check verbose variable
{
[[ $RAINSENSORQTY_verbose = yes ]] && echo "$(d) $*"
}
check_incomplete_loop()
{
[[ ! -f $RAINSENSORQTY_HISTORYRAW ]] && return 1
[[ ! -f $RAINSENSORQTY_HISTORY ]] && touch $RAINSENSORQTY_HISTORY
> $RAINSENSORQTY_HISTORYTMP
if lastrainevent=$( rainevents 1 ) ; then
: # done ok
else
echo "WARNING: rainevents function had errors"
return 1
fi
set -- ${lastrainevent//:/ }
local started=$1
local before=$2
local counter=$3
wrongevent=$(awk -F ":" '$1=="'$started'" && $2!="'$before'" {print $0}' $RAINSENSORQTY_HISTORY)
if [[ -n $wrongevent ]] ; then
echo "ERROR: wrong last rain event found: $wrongevent , right one should be: $lastrainevent"
return 2
fi
if grep -q ^${lastrainevent}$ $RAINSENSORQTY_HISTORY ; then
: # already present
return 0
else
: # missing and fixed
if [[ $1 == tmp ]] ; then
echo $lastrainevent > $RAINSENSORQTY_HISTORYTMP
else
echo $lastrainevent >> $RAINSENSORQTY_HISTORY
fi
return 1
fi
}
#next function is not used anymore
rain_history()
{
[[ ! -f $RAINSENSORQTY_HISTORYRAW ]] && return 1
[[ ! -f $RAINSENSORQTY_HISTORY ]] && touch $RAINSENSORQTY_HISTORY
> $RAINSENSORQTY_HISTORYTMP
if lastrainevent=$( rainevents 1 ) ; then
: # done ok
else
echo "WARNING: rainevents function had errors"
return 1
fi
#old #if grep -q ^$(<$RAINSENSORQTY_LASTRAIN)$ $RAINSENSORQTY_HISTORY ; then
if grep -q ^${lastrainevent}$ $RAINSENSORQTY_HISTORY ; then
: # already present
return 0
else
: # missing and fixed
if [[ $1 == tmp ]] ; then
echo $lastrainevent > $RAINSENSORQTY_HISTORYTMP
else
echo $lastrainevent >> $RAINSENSORQTY_HISTORY
fi
return 0
fi
}
rain_when_amount()
{
# from standard input
# format $time:$endtime:$endsequence
cat - | while read line
do
set -- ${line//:/ }
start=$1
stop=$2
howmuch=$3
printf "RAINED for %7.2f mm between %s and %s\n" $( $JQ -n "$howmuch * $RAINSENSORQTY_MMEACH" ) "$(date --date="@$start")" "$(date --date="@$stop")"
done
}
check_TMPDIR()
{
if [[ $(df | awk '$NF=="/tmp" {print $1}') != "tmpfs" ]] ; then
echo "WARNING: /tmp isn't a tmp file system"
echo -e "\tplease add to your /etc/fstab file:\n\ttmpfs /tmp tmpfs defaults,noatime,nosuid 0 0"
fi
}
rainevents()
{
if [[ ! -f $RAINSENSORQTY_HISTORYRAW ]] ; then
#echo "WARNING: no \$RAINSENSORQTY_HISTORYRAW file"# cannot echo, redirected output
return 1
fi
case $1 in
[0-9]|[0-9][0-9]) howmanyevent=$1 ;;
# -1) skiplast=true ;;
*) howmanyevent=-1 ;;
esac
newloop=yes
tac $RAINSENSORQTY_HISTORYRAW | while read line
do
set -- ${line//:/ }
time=$1
sequence=$2
if [[ $newloop == yes ]] ; then
endtime=$time
endsequence=$sequence
newloop=no
fi
if (( sequence == 1 )) ; then
# [[ $skiplast=true ]] && { skiplast=false ; continue ; }
echo $time:$endtime:$endsequence
newloop=yes
(( event +=1 ))
fi
(( howmanyevent == event )) && break
done | sort -k1n
}
removelastrain()
{
if [[ ! -f $RAINSENSORQTY_HISTORYRAW ]] ; then
echo "WARNING: no \$RAINSENSORQTY_HISTORYRAW file"
return 1
fi
next=false
tac $RAINSENSORQTY_HISTORYRAW | while read line
do
set -- ${line//:/ }
time=$1
sequence=$2
[[ $next = true ]] && echo $line
(( sequence == 1 )) && next=true
done | tac > ${RAINSENSORQTY_HISTORYRAW}_$$
mv ${RAINSENSORQTY_HISTORYRAW}_$$ $RAINSENSORQTY_HISTORYRAW
}

66
drv/rainsensorqty/conf_example/config.include.sh Normal file
View File

@@ -0,0 +1,66 @@
#
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "config.include.sh"
# specific driver config file
# Version: 0.2.5
# Data: 08/Jan/2020
export TMPDIR=/tmp
RAINSENSOR_DEBOUNCE=0.3 # 0.3 seconds for manage debounce of reed contact
RAINSENSORQTY_verbose="yes" # yes/no
RAINSENSORQTY_LASTRAIN="$STATUS_DIR/rainsensorqty_lastrain"
RAINSENSORQTY_HISTORY="$STATUS_DIR/rainsensorqty_history"
RAINSENSORQTY_HISTORYRAW="$STATUS_DIR/rainsensorqty_history.raw"
RAINSENSORQTY_HISTORYTMP="$TMPDIR/rainsensorqty_history.tmp"
RAINSENSORQTY_MONITORLOG="$DIR_SCRIPT/log/rainsensorqty_monitor.log"
RAINSENSORQTY_MONPID="$TMPDIR/rainsensorqty_monitor.pid"
RAINSENSORQTY_STATE="$TMPDIR/rainsensorqty_state"
RAINSENSORQTY_STATE_HIST="$TMPDIR/rainsensorqty_state.history"
RAINSENSORQTY_DIR="$DIR_SCRIPT/drv/rainsensorqty"
monitor_sh="$RAINSENSORQTY_DIR/drv_rainsensorqty_monitor.sh"
# internal gpio resistor, 3 values: pull-up, pull-down, none
# pull-up/down if rain gauge is connected directly to raspberry
# none if connected through an optocoupler circuit
GPIO_RESISTOR="pull-up" #pull-up|pull-down|none
#rising means waiting for 1 status (from 0)
#falling means waiting for 0 status (from 1)
#RAINSENSORQTY_PULSE=rising # pull-down circuit (rest status is 0)
#RAINSENSORQTY_PULSE=falling # pull-up circuit (rest status is 1)
(( RAIN_GPIO_STATE == 1 )) && RAINSENSORQTY_PULSE=rising # pull-down circuit (rest status is 0)
(( RAIN_GPIO_STATE == 0 )) && RAINSENSORQTY_PULSE=falling # pull-up circuit (rest status is 1)
config_check()
{
var2check="RAINSENSOR_DEBOUNCE RAINSENSORQTY_verbose RAINSENSORQTY_LASTRAIN RAINSENSORQTY_HISTORY RAINSENSORQTY_MONITORLOG RAINSENSORQTY_MONPID RAINSENSORQTY_DIR monitor_sh"
for var in $var2check
do
#${!a}
if [[ -z ${!var} ]] ; then
echo "ERROR: \$$var not set"
exit 1
fi
done
if [[ -z $RAINSENSORQTY_PULSE ]] ; then
echo "ERROR: RAIN_GPIO_STATE not set in piGarden.conf"
exit 1
fi
return 0
case $GPIO_RESISTOR in
pull-up|pull-down|none) return 0 ;;
*) echo "ERROR: GPIO_RESISTOR not set correctly - values are \"pull-up|pull-down|none\" "
exit 1
;;
esac
}

14
drv/rainsensorqty/conf_example/piGarden.conf.rainsensorqty.example Normal file
View File

@@ -0,0 +1,14 @@
# cfg file version 0.2.0
# Id del gpio usato per collegare il sensore di rilevamento pioggia
# attraverso il driver rainsensorqty
RAIN_GPIO="drv:rainsensorqty:25" # Physical 22 - wPi 6
# Valore in ingresso sul gpio definito in RAIN_GPIO che indica lo stato di pioggia
# variabile usata anche da drv:rainsensorqty, se e' a 1, significa che il reed contact e' collegato ad un circuito pull-down, vuol dire che attende l'impulso a 1 per contare le vaschette, normalmente e' a 0.
# se e' a 0, significa che il reed contact e' collegato ad un circuito pull-up, vuol dire che attende l'impulso a 0 per contare le vaschette, normalmente e' a 0.
RAIN_GPIO_STATE=0
RAINSENSORQTY_LOOPSFORSETRAINING=16 # dopo 16 impulsi, 16 vaschette riempite si considera pioggia
RAINSENSORQTY_SECSBETWEENRAINEVENT=10800 # =3h, significa che dopo 3 ore si resetta il numero di vaschette riempire e solo dopo un nuovo ciclo di riempimento si considera una nuova pioggia
RAINSENSORQTY_MMEACH=0.33 # see RAINSENSORQTY driver readme for details

66
drv/rainsensorqty/config.include.sh Normal file
View File

@@ -0,0 +1,66 @@
#
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "config.include.sh"
# specific driver config file
# Version: 0.2.5
# Data: 08/Jan/2020
export TMPDIR=/tmp
RAINSENSOR_DEBOUNCE=0.3 # 0.3 seconds for manage debounce of reed contact
RAINSENSORQTY_verbose="yes" # yes/no
RAINSENSORQTY_LASTRAIN="$STATUS_DIR/rainsensorqty_lastrain"
RAINSENSORQTY_HISTORY="$STATUS_DIR/rainsensorqty_history"
RAINSENSORQTY_HISTORYRAW="$STATUS_DIR/rainsensorqty_history.raw"
RAINSENSORQTY_HISTORYTMP="$TMPDIR/rainsensorqty_history.tmp"
RAINSENSORQTY_MONITORLOG="$DIR_SCRIPT/log/rainsensorqty_monitor.log"
RAINSENSORQTY_MONPID="$TMPDIR/rainsensorqty_monitor.pid"
RAINSENSORQTY_STATE="$TMPDIR/rainsensorqty_state"
RAINSENSORQTY_STATE_HIST="$TMPDIR/rainsensorqty_state.history"
RAINSENSORQTY_DIR="$DIR_SCRIPT/drv/rainsensorqty"
monitor_sh="$RAINSENSORQTY_DIR/drv_rainsensorqty_monitor.sh"
# internal gpio resistor, 3 values: pull-up, pull-down, none
# pull-up/down if rain gauge is connected directly to raspberry
# none if connected through an optocoupler circuit
GPIO_RESISTOR="pull-up" #pull-up|pull-down|none
#rising means waiting for 1 status (from 0)
#falling means waiting for 0 status (from 1)
#RAINSENSORQTY_PULSE=rising # pull-down circuit (rest status is 0)
#RAINSENSORQTY_PULSE=falling # pull-up circuit (rest status is 1)
(( RAIN_GPIO_STATE == 1 )) && RAINSENSORQTY_PULSE=rising # pull-down circuit (rest status is 0)
(( RAIN_GPIO_STATE == 0 )) && RAINSENSORQTY_PULSE=falling # pull-up circuit (rest status is 1)
config_check()
{
var2check="RAINSENSOR_DEBOUNCE RAINSENSORQTY_verbose RAINSENSORQTY_LASTRAIN RAINSENSORQTY_HISTORY RAINSENSORQTY_MONITORLOG RAINSENSORQTY_MONPID RAINSENSORQTY_DIR monitor_sh"
for var in $var2check
do
#${!a}
if [[ -z ${!var} ]] ; then
echo "ERROR: \$$var not set"
exit 1
fi
done
if [[ -z $RAINSENSORQTY_PULSE ]] ; then
echo "ERROR: RAIN_GPIO_STATE not set in piGarden.conf"
exit 1
fi
return 0
case $GPIO_RESISTOR in
pull-up|pull-down|none) return 0 ;;
*) echo "ERROR: GPIO_RESISTOR not set correctly - values are \"pull-up|pull-down|none\" "
exit 1
;;
esac
}

113
drv/rainsensorqty/drv_rainsensorqty_monitor.sh Executable file
View File

@@ -0,0 +1,113 @@
#!/bin/bash
#
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "drv_rainsensorqty_monitor.sh"
# monitor script
# Version: 0.2.5c
# Data: 08/Dec/2020
resetcounter()
{
(( counter = 0 ))
drv_rainsensorqty_writelog $f "SIGUSR1 received after last PULSE - counter resetted" &
echo "SIGUSR1 received after last PULSE - counter resetted"
}
# DEBUG FUNCTION:
testloop()
{
touch /tmp/tick
while true
do
if [[ $( < /tmp/tick ) = "1" ]] ; then
break
fi
sleep 1
done
}
###############
# MAIN #
###############
trap "resetcounter" SIGUSR1
DIRNAME="$( dirname $0 )"
f="$(basename $0)"
. $DIRNAME/common.include.sh
RAINSENSORQTY_VAR=$TMPDIR/.rainsensorqty_var
if [[ -f "$RAINSENSORQTY_VAR" ]] ; then
en_echo "NORMAL: file $RAINSENSORQTY_VAR found - getting variables"
. "$RAINSENSORQTY_VAR"
else
echo "ERROR: $RAINSENSORQTY_VAR not found"
exit 1
fi
#drvt="$( echo $RAIN_GPIO | $CUT -f 1 -d: )"
#drv="$( echo $RAIN_GPIO | $CUT -f 2 -d: )"
gpio_port="$( echo $RAIN_GPIO | $CUT -f 3 -d: )"
# check if no other rain monitor process running...
if [[ -f "$RAINSENSORQTY_MONPID" ]] ; then
pid="$( < "$RAINSENSORQTY_MONPID" )"
if ps -fp $pid >/dev/null ; then
drv_rainsensorqty_writelog $f "ERROR monitor process already running\n$( ps -fp $pid )"
exit 1
fi
fi
echo $$ > $RAINSENSORQTY_MONPID
drv_rainsensorqty_writelog $f "NORMAL - $$ pid monitor process started - see $RAINSENSORQTY_MONPID"
echo ""
en_echo "---- NEW RUN ----"
# check if monitor script was killed before writing a complete rain event
check_incomplete_loop
case $? in
2) echo "\$RAINSENSORQTY_HISTORY - wrong entry found - no fix possible" ;;
1) echo "\$RAINSENSORQTY_HISTORY - fixed incomplete loop" ;;
0) echo "\$RAINSENSORQTY_HISTORY - no incomplete loop needed to be fixed" ;;
esac
# init variables
MMEACH="$RAINSENSORQTY_MMEACH"
(( counter=0 ))
before="-1"
en_echo "WAITING FOR $RAINSENSORQTY_PULSE PULSE"
# loop forever
while true
do
sleep $RAINSENSOR_DEBOUNCE
#DEBUG: testloop #DEBUG
$GPIO -g wfi $gpio_port $RAINSENSORQTY_PULSE
now=`date +%s`
(( elapsed = now - before ))
if (( elapsed >= RAINSENSORQTY_SECSBETWEENRAINEVENT )) ; then
last_event="$started:$before:$counter"
(( counter=0 ))
drv_rainsensorqty_writelog $f "first drops after $elapsed seconds since last rain ( greater than $RAINSENSORQTY_SECSBETWEENRAINEVENT )- new cycle - waiting for $( $JQ -n "$RAINSENSORQTY_LOOPSFORSETRAINING * $MMEACH" ) mm of rain" &
(( before > 0 )) && echo $last_event >> $RAINSENSORQTY_HISTORY
en_echo "---- NEW CYCLE ----"
fi
(( counter+=1 ))
(( counter == 1 )) && (( started = now ))
echo "$now:$counter" >> ${RAINSENSORQTY_HISTORYRAW} &
MMWATER=$( $JQ -n "$counter*$MMEACH" )
en_echo $( printf "%s PULSE #%d RECEIVED (%.2f mm)" $RAINSENSORQTY_PULSE $counter $MMWATER )
text=$(printf "%.2f mm height (#%d pulse)" $MMWATER $counter )
if (( counter >= RAINSENSORQTY_LOOPSFORSETRAINING )) ; then
drv_rainsensorqty_writelog $f "RAINING - $text" &
echo "$now:$counter" > ${RAINSENSORQTY_LASTRAIN}
else
drv_rainsensorqty_writelog $f "now is $text" &
fi
(( before = now ))
done

37
drv/rainsensorqty/init.include.sh Normal file
View File

@@ -0,0 +1,37 @@
#
# Driver rainsensorqty - driver for measure the rain volume
# Author: androtto
# file "init.include.sh"
# Inizializza il driver, viene richiamata nella funzione init di piGarden
# Version: 0.2.0
# Data: 11/Aug/2019
function drv_rainsensorqty_init {
local f="drv_rainsensorqty_init"
# format RAIN_GPIO="drv:rainsensorqty:25"
drv_rainsensorqty_writelog $f "NORMAL: executing $monitor_sh"
# esegue rainmonitor
if [ -x "$monitor_sh" ] ; then
nohup "$monitor_sh" >> $RAINSENSORQTY_MONITORLOG 2>&1 &
sleep 1
drv_rainsensorqty_writelog $f "NORMAL: $monitor_sh has pid $( < $RAINSENSORQTY_MONPID)"
else
drv_rainsensorqty_writelog $f "ERROR: cannot find \"\$monitor_sh \" "
fi
}
if ! config_check ; then
echo "ERROR in config_check function"
exit 1
else
: #echo "config_check ok"
fi
check_TMPDIR
RAINSENSORQTY_VAR=$TMPDIR/.rainsensorqty_var
set | $GREP -e ^GPIO -e ^LOG -e ^CUT -e ^JQ -e ^RAIN -e ^SCR -e ^TMP > $RAINSENSORQTY_VAR

104
drv/rainsensorqty/rainsensor.include.sh Normal file
View File

@@ -0,0 +1,104 @@
#
# Driver rainsensorqty - driver for measure the rain volume, for rain meter, for rain gauge
# Author: androtto
# file "rainsensor.include.sh"
# functions called by piGarden.sh
# Version: 0.1.2
# Data: 19/Mar/2019
# fixed output drv_rainsensorqty_rain_sensor_get
#
# Inizializza il sensore di rilevamento pioggia
#
# $1 identificativo gpio del sensore di pioggia
#
drv_rainsensorqty_rain_sensor_init()
{
local f=drv_rainsensorqty_rain_sensor_init
drv_rainsensorqty_writelog "launched: $f" $1
local drvt="$( echo $RAIN_GPIO | $CUT -f 1 -d: )"
local drv="$( echo $RAIN_GPIO | $CUT -f 2 -d: )"
local gpio_port="$( echo $RAIN_GPIO | $CUT -f 3 -d: )"
if $GPIO -g mode $gpio_port in ; then
drv_rainsensorqty_writelog $f "NORMAL: '$GPIO -g mode $gpio_port in' set correctly"
else
drv_rainsensorqty_writelog $f "ERROR: '$GPIO -g mode $gpio_port in' has an error"
exit 1
fi
case $GPIO_RESISTOR in
pull-up) gpio_arg=up
message="NORMAL: '$GPIO -g mode $gpio_port up' set internal pull-up resistor"
;;
pull-down) gpio_arg=down
message="NORMAL: '$GPIO -g mode $gpio_port down' set internal pull-down resistor"
;;
none) gpio_arg=tri
message="NORMAL: '$GPIO -g mode $gpio_port tri' set none to internal resistor"
;;
*) echo "ERROR: GPIO_RESISTOR not set correctly - values are \"pull-up|pull-down|none\" "
drv_rainsensorqty_writelog "drv_rainsensorqty_rain_sensor_init" "ERROR: GPIO_RESISTOR not set correctly - values are \"pull-up|pull-down|none\" "
exit 1
;;
esac
if $GPIO -g mode $gpio_port $gpio_arg ; then
drv_rainsensorqty_writelog $f "$message"
else
drv_rainsensorqty_writelog $f "ERROR: '$GPIO -g mode $gpio_port $gpio_arg' command"
exit 1
fi
}
#
# Ritorna in output lo stato del sensore di rilevamento pioggia
#
# $1 identificativo gpio del sensore di pioggia
#
# restituisce 0 se piove, e nell'output di testo il valore di "$RAIN_GPIO_STATE"
# restituisce 99 se non piove, output "norain"
# esce con 1 se non c'e' il monitoring, output "ERROR"
drv_rainsensorqty_rain_sensor_get()
{
local now=$(date +%s)
local interval=60 # because check_rain_sensor is scheduled once a minute ... to changed if schedule is modified, from crontab:
#* * * * * /home/pi/piGarden/piGarden.sh check_rain_sensor 2> /tmp/check_rain_sensor.err
local f="drv_rainsensorqty_check"
# script called with:
#drv_rainsensorqty_writelog $f $1
# ignora il parametro di $1, lo recupera dal file di configurazione
# verifica se lo script di monitoring e' attivo
if drv_rainsensorqty_check ; then
drv_rainsensorqty_writelog $f "NORMAL - drv_rainsensorqty_check ok, monitor process running"
if [ -f "$RAINSENSORQTY_LASTRAIN" ] ; then
local lastrain="$( cat "$RAINSENSORQTY_LASTRAIN" | $CUT -f 1 -d: )"
local counter="$( cat "$RAINSENSORQTY_LASTRAIN" | $CUT -f 2 -d: )"
LEVEL=$( $JQ -n "$counter/$RAINSENSORQTY_LOOPSFORSETRAINING" | $JQ 'floor' )
(( diff = now - lastrain ))
drv_rainsensorqty_writelog $f "NORMAL: last rain $( date --date="@$lastrain" ) - LEVEL $LEVEL rain"
drv_rainsensorqty_writelog $f "NORMAL: check rain $( date --date="@$now" ) "
if (( diff <= interval )) ; then
drv_rainsensorqty_writelog $f "RAIN - return \$RAIN_GPIO_STATE = $RAIN_GPIO_STATE as output"
drv_rainsensorqty_writelog $f "DEBUG : check rain - diff $diff < $interval - return $RAIN_GPIO_STATE"
msg="$RAIN_GPIO_STATE"
echo $msg
return 0
else
drv_rainsensorqty_writelog $f "NO_RAIN - return \"norain\" as output"
drv_rainsensorqty_writelog $f "DEBUG : check rain - diff $diff < $interval - return 99"
msg="norain"
echo $msg
return 99
fi
fi
else
drv_rainsensorqty_writelog $f "ERROR: drv_rainsensorqty_check failed, no monitor process running ($monitor_sh)"
msg="ERROR"
echo $msg
return 1
fi
}

14
drv/remote/README.md
View File

@@ -1,4 +1,14 @@
# Driver per controllare pigarden remoti in rete da un'installazione pigarden master
# Driver for controlling remote pigarden on the network from a pigarden master installation
Per maggiori informazioni consulta https://www.lejubila.net/2018/03/pigardent-0-5-5-driver-master-per-implementare-un-architettura-master-slave/
For more information see https://www.lejubila.net/2018/03/pigardent-0-5-5-driver-master-per-implementare-un-architettura-master-slave/
# Example of zone configuration in piGarden.conf
```bash
EV1_ALIAS="Giarino_Posteriore_DX" #
EV1_GPIO="drv:remote:PIREMOTE1:Giardino_Posteriore_DX"
PIREMOTE1_IP="192.168.1.51"
PIREMOTE1_PORT="8084"
PIREMOTE1_USER=""
PIREMOTE1_PWD=""
```

6
drv/remote/rele.include.sh
View File

@@ -35,7 +35,7 @@ function drv_remote_rele_open {
error="${error%\"}"
error="${error#\"}"
echo "error=$error"
log_write "Remote rele open error: $error"
log_write "drv_remote" "error" "Remote rele open error: $error"
message_write "warning" "Remote rele open error: $error"
return 1
fi
@@ -68,8 +68,8 @@ function drv_remote_rele_close {
error="${error%\"}"
error="${error#\"}"
echo "error=$error"
log_write "Remote rele open error: $error"
message_write "warning" "Remote rele open error: $error"
log_write "drv_remoter" "error" "Remote rele close error: $error"
message_write "warning" "Remote rele close error: $error"
return 1
fi
}

2
drv/remote/setup.include.sh
View File

@@ -1,6 +1,6 @@
#
# Questa funzione viene invocata dalla funzione "setup_drv" di piGarden ad ogni avvio dello script
# e serve per eseguire l'evenutale setup del driver se necessario
# e serve per eseguire l'eventuale setup del driver se necessario
#
function drv_remote_setup {

2
drv/sample/common.include.sh
View File

@@ -5,7 +5,7 @@
#
# Funzione di esempio
#
function sample_foo {
function drv_sample_foo {
echo "bar"

13
drv/sample/rainonline.include.sh Normal file
View File

@@ -0,0 +1,13 @@
#
# Ritorna lo stato delle condizioni meteo interrogando il servizio online
#
# return output: 0 - errore durante il recupero delle condizioni meteo
# >0 - rilevato pioggia, timestamp del rilevamento
# <0 - rilevato nessuna pioggia, timestamp del rilevamento
function drv_sample_rain_online_get {
local FOO="bar"
}

2
drv/sample/setup.include.sh
View File

@@ -1,6 +1,6 @@
#
# Questa funzione viene invocata dalla funzione "setup_drv" di piGarden ad ogni avvio dello script
# e serve per eseguire l'evenutale setup del driver se necessario
# e serve per eseguire l'eventuale setup del driver se necessario
#
function drv_sample_setup {

22
drv/sonoff_tasmota_http/README.md Normal file
View File

@@ -0,0 +1,22 @@
# Driver for controlling Sonoff remote relays with Tasmota firmware via http protocol
More information on Sonoff Tasmota firmware: https://github.com/arendst/Sonoff-Tasmota
# Example of zone configuration in piGarden.conf
```bash
EV1_ALIAS="Giardino_Posteriore_DX"
EV1_GPIO="drv:sonoff_tasmota_http:SONOFF1:Power1"
EV1_MONOSTABLE=1
EV2_ALIAS="Giardino_Posteriore_CN"
EV2_GPIO="drv:sonoff_tasmota_http:SONOFF1:Power2"
EV2_MONOSTABLE=1
SONOFF1_IP="192.168.1.1"
SONOFF1_USER="user"
SONOFF1_PWD="pwd"
```
More information for configuration: https://www.lejubila.net/2018/06/pigarden-0-5-7-gestisci-le-tue-elettrovalvole-con-i-moduli-sonoff-grazie-al-nuovo-driver-sonoff_tasmota_http

50
drv/sonoff_tasmota_http/common.include.sh Normal file
View File

@@ -0,0 +1,50 @@
#
# Funzioni comuni utilizzate dal driver
#
#
# Invia un comando al modulo sonoff tramite http
#
# $1 identificativo modulo sonoff
# $2 comando da eseguire
#
function drv_sonoff_tasmota_http_command {
local remote="$1"
local command="$2"
local remote_ip_var=$remote"_IP"
local remote_user_var=$remote"_USER"
local remote_pwd_var=$remote"_PWD"
local remote_ip="${!remote_ip_var}"
local remote_user="${!remote_user_var}"
local remote_pwd="${!remote_pwd_var}"
local url="http://$remote_ip/cm"
local credentials=""
local response=""
if [[ ! -z $remote_user ]] && [[ ! -z $remote_pwd ]]; then
credentials="user=$remote_user&password=$remote_pwd&"
fi
url="$url?$credentials$command"
echo "url api sonoff: $url" >> "$LOG_OUTPUT_DRV_FILE"
$CURL --connect-timeout 5 -sb -H "$url"
local res=$?
echo "curl code response: $res" >> "$LOG_OUTPUT_DRV_FILE"
if [ "$res" != "0" ]; then
echo "The curl command failed with: $res - url: $url"
fi
#echo "{\"POWER1\":\"ON\"}"
}

7
drv/sonoff_tasmota_http/config.include.sh Normal file
View File

@@ -0,0 +1,7 @@
#
# File di configurazione del driver
#
# Dichiarazione variabile di esempio
#declare -g SAMPLE_FOO
#SAMPLE_FOO="bar"

9
drv/sonoff_tasmota_http/init.include.sh Normal file
View File

@@ -0,0 +1,9 @@
#
# Questa funzione viene inviocata dalla funzione "init" di piGarden se sono presenti elettrovalvole o sensori che utilizzano questo driver
#
function drv_sonoff_tasmota_http_init {
local FOO=bar
}

23
drv/sonoff_tasmota_http/rainsensor.include.sh Normal file
View File

@@ -0,0 +1,23 @@
#
# Inizializza il sensore di rilevamento pioggia
#
# $i identificativo gpio del sensore di pioggia
#
function drv_sonoff_tasmota_http_rain_sensor_init {
local FOO="bar"
}
#
# Ritorna lo stato del sensore di rilevamento pioggia
#
# $i identificativo gpio del sensore di pioggia
#
function drv_sonoff_tasmota_http_rain_sensor_get {
local FOO="bar"
}

78
drv/sonoff_tasmota_http/rele.include.sh Normal file
View File

@@ -0,0 +1,78 @@
#
# Inizializzazione rele
#
# $1 identificativo relè da inizializzare
#
function drv_sonoff_tasmota_http_rele_init {
drv_sonoff_tasmota_http_rele_open "$1"
}
#
# Apertura rele
#
# $1 identificativo relè da aprire (chiude l'elettrovalvola)
#
function drv_sonoff_tasmota_http_rele_open {
local remote=`echo $1 | $CUT -d':' -f3,3`
local remote_alias=`echo $1 | $CUT -d':' -f4,4`
local command="cmnd=$remote_alias%20Off"
echo "remote=$remote"
echo "remote_alias=$remote_alias"
echo "command=$command"
local response=$(drv_sonoff_tasmota_http_command "$remote" "$command")
echo "response=$response"
local jskey=${remote_alias^^}
local result=$(echo $response|$JQ -M ".$jskey")
echo "result=$result"
if [[ "$result" != "\"OFF\"" ]]; then
local error="Command error: $response"
error="${error%\"}"
error="${error#\"}"
echo "error=$error"
log_write "drv_sonoff_tasmota_http" "error" "Remote rele open error: $error"
message_write "warning" "Remote rele open error: $error"
return 1
fi
}
#
# Chiusura rele
#
# $1 identificativo relè da chiudere (apre l'elettrovalvola)
#
function drv_sonoff_tasmota_http_rele_close {
local remote=`echo $1 | $CUT -d':' -f3,3`
local remote_alias=`echo $1 | $CUT -d':' -f4,4`
local command="cmnd=$remote_alias%20On"
echo "remote=$remote"
echo "remote_alias=$remote_alias"
echo "command=$command"
local response=$(drv_sonoff_tasmota_http_command "$remote" "$command")
echo "response=$response"
local jskey=${remote_alias^^}
local result=$(echo $response|$JQ -M ".$jskey")
echo "result=$result"
if [[ "$result" != "\"ON\"" ]]; then
local error="Command error: $response"
error="${error%\"}"
error="${error#\"}"
echo "error=$error"
log_write "drv_sonoff_tasmota_http" "error" "Remote rele close error: $error"
message_write "warning" "Remote rele close error: $error"
return 1
fi
}

10
drv/sonoff_tasmota_http/setup.include.sh Normal file
View File

@@ -0,0 +1,10 @@
#
# Questa funzione viene invocata dalla funzione "setup_drv" di piGarden ad ogni avvio dello script
# e serve per eseguire l'eventuale setup del driver se necessario
#
function drv_sonoff_tasmota_http_setup {
local FOO="bar"
}

34
drv/sonoff_tasmota_http/supply.include.sh Normal file
View File

@@ -0,0 +1,34 @@
#
# Inizializza i rele che gestiscono l'alimentazione per le valvole bistabili
#
# $1 identificativo relè
#
function drv_sonoff_tasmota_http_supply_bistable_init {
drv_sonoff_tasmota_http_supply_negative "$1"
}
#
# Imposta l'alimentazione delle elettrovalvole con voltaggio positivo
#
# $1 identificativo relè
#
function drv_sonoff_tasmota_http_supply_positive {
drv_sonoff_tasmota_http_rele_open "$1"
}
#
# Imposta l'alimentazione delle elettrovalvole con voltaggio negativo
#
# $1 identificativo relè
#
function drv_sonoff_tasmota_http_supply_negative {
drv_sonoff_tasmota_http_rele_close "$1"
}

2
drv/spb16ch/common.include.sh
View File

@@ -74,7 +74,7 @@ function drv_spb16ch_boards_id_load {
SPB16CH_USED_ID+=("$board_id")
done
else
log_write "spb16ch: file $SPB16CH_BOARD_ID_STORE_FILE not found: remember to run 'piGarden init' to generate the file"
log_write "drv_spb16ch" "error" "spb16ch: file $SPB16CH_BOARD_ID_STORE_FILE not found: remember to run 'piGarden init' to generate the file"
fi
}

4
drv/spb16ch/rele.include.sh
View File

@@ -19,7 +19,7 @@ function drv_spb16ch_rele_open {
local rele_data=${SPB16CH_RELE_MAP[$rele_id]}
if [[ -z $rele_data ]]; then
local message="Error - Rele map not defined - rele_id=$rele_id - ($1)"
log_write "$message"
log_write "drv_spb16ch" "error" "$message"
message_write "warning" "$message"
fi
local address_num=${rele_data:0:2}
@@ -52,7 +52,7 @@ function drv_spb16ch_rele_close {
local rele_data=${SPB16CH_RELE_MAP[$rele_id]}
if [[ -z $rele_data ]]; then
local message="Error - Rele map not defined - rele_id=$rele_id - ($1)"
log_write "$message"
log_write "drv_spb16ch" "error" "$message"
message_write "warning" "$message"
fi
local address_num=${rele_data:0:2}

12
drv/wunderground/README.md Normal file
View File

@@ -0,0 +1,12 @@
# Driver for check wather condition with wunderground online service
# Example of configuration in piGarden.conf
```bash
WEATHER_SERVICE="wunderground"
WUNDERGROUND_KEY="" # Set with your api key of wunderground
WUNDERGROUND_LOCATION="IY/Monsummano" # Set with your location indentify, see http://www.wunderground.com/weather/api/d/docs?d=resources/country-to-iso-matching&MR=1
```

12
drv/wunderground/common.include.sh Normal file
View File

@@ -0,0 +1,12 @@
#
# Funzioni comuni utilizzate dal driver
#
#
# Funzione di esempio
#
function sample_foo {
echo "bar"
}

36
drv/wunderground/rainonline.include.sh Normal file
View File

@@ -0,0 +1,36 @@
#
# Ritorna lo stato delle condizioni meteo interrogando il servizio online
#
# $i identificativo gpio del sensore di pioggia
#
# return output: 0 - errore durante il recupero delle condizioni meteo
# >0 - rilevato pioggia, timestamp del rilevamento
# <0 - rilevato nessuna pioggia, timestamp del rilevamento
function drv_wunderground_rain_online_get {
# http://www.wunderground.com/weather/api/d/docs?d=resources/phrase-glossary&MR=1
$CURL http://api.wunderground.com/api/$WUNDERGROUND_KEY/conditions/q/$WUNDERGROUND_LOCATION.json > $TMP_PATH/check_rain_online.json
local weather=`cat $TMP_PATH/check_rain_online.json | $JQ -M ".current_observation.weather"`
local current_observation=`cat $TMP_PATH/check_rain_online.json | $JQ -M ".current_observation"`
local local_epoch=`cat $TMP_PATH/check_rain_online.json | $JQ -M -r ".current_observation.local_epoch"`
if [ "$weather" = "null" ]; then
echo "0"
else
if [[ "$weather" == *"Rain"* ]] ||
[[ "$weather" == *"Snow"* ]] ||
[[ "$weather" == *"Hail"* ]] ||
[[ "$weather" == *"Ice"* ]] ||
[[ "$weather" == *"Thunderstorm"* ]] ||
[[ "$weather" == *"Drizzle"* ]];
then
echo $local_epoch
else
echo "-$local_epoch"
fi
echo "$current_observation" > "$STATUS_DIR/last_weather_online"
fi
}

118
include/cron.include.sh
View File

@@ -10,7 +10,7 @@ function cron_del {
if [ -z "$CRON_TYPE" ]; then
echo "Cron type is empty" >&2
log_write "Cron type is empty"
log_write "cron" "error" "Cron type is empty"
return 1
fi
@@ -25,17 +25,17 @@ function cron_del {
fi
if ! [[ $START =~ $re ]] ; then
echo "Cron start don't find" >&2
log_write "Cron start don't find"
log_write "cron" "error" "Cron start don't find"
return 1
fi
if ! [[ $END =~ $re ]] ; then
echo "Cron end cron don't find" >&2
log_write "Cron end cron don't find"
log_write "cron" "error" "Cron end cron don't find"
return 1
fi
if [ "$START" -gt "$END" ]; then
echo "Wrong position for start and end in cron" >&2
log_write "Wrong position for start and end in cron"
log_write "cron" "error" "Wrong position for start and end in cron"
return 1
fi
@@ -74,7 +74,7 @@ function cron_add {
if [ -z "$CRON_TYPE" ]; then
echo "Cron type is empty" >&2
log_write "Cron type is empty"
log_write "cron" "error" "Cron type is empty"
return 1
fi
@@ -91,12 +91,12 @@ function cron_add {
else
if ! [[ $START =~ $re ]] ; then
echo "Cron start don't find" >&2
log_write "Cron start don't find"
log_write "cron" "error" "Cron start don't find"
return 1
fi
if ! [[ $END =~ $re ]] ; then
echo "Cron end cron don't find" >&2
log_write "Cron end cron don't find"
log_write "cron" "error" "Cron end cron don't find"
return 1
fi
START=$(($START + 1))
@@ -104,7 +104,7 @@ function cron_add {
if [ "$START" -gt "$END" ]; then
echo "Wrong position for start and end in cron" >&2
log_write "Wrong position for start and end in cron"
log_write "cron" "error" "Wrong position for start and end in cron"
return 1
fi
@@ -183,7 +183,7 @@ function cron_add {
*)
echo "Wrong cron type: $CRON_TYPE"
log_write "Wrong cron type: $CRON_TYPE"
log_write "cron" "error" "Wrong cron type: $CRON_TYPE"
;;
esac
@@ -225,7 +225,7 @@ function cron_get {
if [ -z "$CRON_TYPE" ]; then
echo "Cron type is empty" >&2
log_write "Cron type is empty"
log_write "cron" "error" "Cron type is empty"
return 1
fi
@@ -241,12 +241,12 @@ function cron_get {
else
if ! [[ $START =~ $re ]] ; then
echo "Cron start don't find" >&2
log_write "Cron start don't find"
log_write "cron" "error" "Cron start don't find"
return 1
fi
if ! [[ $END =~ $re ]] ; then
echo "Cron end cron don't find" >&2
log_write "Cron end cron don't find"
log_write "cron" "error" "Cron end cron don't find"
return 1
fi
START=$(($START + 1))
@@ -254,7 +254,7 @@ function cron_get {
if [ "$START" -gt "$END" ]; then
echo "Wrong position for start and end in cron" >&2
log_write "Wrong position for start and end in cron"
log_write "cron" "error" "Wrong position for start and end in cron"
return 1
fi
@@ -370,7 +370,7 @@ function add_cron_open {
local exists=`alias_exists $1`
if [ "check $exists" = "check FALSE" ]; then
log_write "Alias $1 not found"
log_write "cron" "error" "Alias $1 not found"
echo "Alias $1 not found"
return 1
fi
@@ -387,7 +387,7 @@ function del_cron_open {
local exists=`alias_exists $1`
if [ "check $exists" = "check FALSE" ]; then
log_write "Alias $1 not found"
log_write "cron" "error" "Alias $1 not found"
echo "Alias $1 not found"
return 1
fi
@@ -404,7 +404,7 @@ function get_cron_open {
local exists=`alias_exists $1`
if [ "check $exists" = "check FALSE" ]; then
log_write "Alias $1 not found"
log_write "cron" "error" "Alias $1 not found"
echo "Alias $1 not found"
return 1
fi
@@ -421,7 +421,7 @@ function del_cron_open_in {
local exists=`alias_exists $1`
if [ "check $exists" = "check FALSE" ]; then
log_write "Alias $1 not found"
log_write "cron" "error" "Alias $1 not found"
echo "Alias $1 not found"
return 1
fi
@@ -439,7 +439,7 @@ function get_cron_close {
local exists=`alias_exists $1`
if [ "check $exists" = "check FALSE" ]; then
log_write "Alias $1 not found"
log_write "cron" "error" "Alias $1 not found"
echo "Alias $1 not found"
return 1
fi
@@ -462,7 +462,7 @@ function add_cron_close {
local exists=`alias_exists $1`
if [ "check $exists" = "check FALSE" ]; then
log_write "Alias $1 not found"
log_write "cron" "error" "Alias $1 not found"
echo "Alias $1 not found"
return 1
fi
@@ -479,7 +479,7 @@ function del_cron_close {
local exists=`alias_exists $1`
if [ "check $exists" = "check FALSE" ]; then
log_write "Alias $1 not found"
log_write "cron" "error" "Alias $1 not found"
echo "Alias $1 not found"
return 1
fi
@@ -559,7 +559,79 @@ function cron_disable_all_open_close {
fi
done
}
#
# Attiva tutte le schedulazioni di apertura e chiusura elettrovalvole
#
function cron_enable_all_open_close {
local a=""
local al=""
local cron=""
#
# Disabilita tutte le schedulazioni di apertura
#
for i in $(seq $EV_TOTAL)
do
a=EV"$i"_ALIAS
al=${!a}
local crons=`get_cron_open $al`
if [[ ! -z "$crons" ]]; then
del_cron_open $al
IFS=$'\n' # make newlines the only separator
for cron in $crons
do
#echo "-- $cron --"
CRON_M=`echo $cron | $CUT -d' ' -f1,1`
CRON_H=`echo $cron | $CUT -d' ' -f2,2`
CRON_DOM=`echo $cron | $CUT -d' ' -f3,3`
CRON_MON=`echo $cron | $CUT -d' ' -f4,4`
CRON_DOW=`echo $cron | $CUT -d' ' -f5,5`
if [[ ${CRON_M:0:1} == "#" ]]; then
CRON_M=${CRON_M:1:${#CRON_M}}
fi
#echo "++ $CRON_M $CRON_H $CRON_DOM $CRON_MON $CRON_DOW ++"
add_cron_open $al "$CRON_M" "$CRON_H" "$CRON_DOM" "$CRON_MON" "$CRON_DOW"
done
fi
done
#
# Disabilita tutte le schedulazioni di chiusura
#
for i in $(seq $EV_TOTAL)
do
a=EV"$i"_ALIAS
al=${!a}
local crons=`get_cron_close $al`
if [[ ! -z "$crons" ]]; then
del_cron_close $al
IFS=$'\n' # make newlines the only separator
for cron in $crons
do
#echo "-- $cron --"
CRON_M=`echo $cron | $CUT -d' ' -f1,1`
CRON_H=`echo $cron | $CUT -d' ' -f2,2`
CRON_DOM=`echo $cron | $CUT -d' ' -f3,3`
CRON_MON=`echo $cron | $CUT -d' ' -f4,4`
CRON_DOW=`echo $cron | $CUT -d' ' -f5,5`
if [[ ${CRON_M:0:1} == "#" ]]; then
CRON_M=${CRON_M:1:${#CRON_M}}
fi
#echo "++ $CRON_M $CRON_H $CRON_DOM $CRON_MON $CRON_DOW ++"
add_cron_close $al "$CRON_M" "$CRON_H" "$CRON_DOM" "$CRON_MON" "$CRON_DOW"
done
fi
done
}

64
include/drv.include.sh
View File

@@ -1,11 +1,15 @@
declare -a list_drv
#
# Funzione eseguita ad ogni avvio di piGarden.sh, si occupa includere tutti i file dei driver utilizzati e di lanciare
# la funzione di setup di ogni driver se esistente
#
function setup_drv {
#declare -a list_drv
list_drv=()
# Inizializza i driver per le elettrovalvole
# Raccoglie i nomi dei driver utilizzati per le elettrovalvole
for i in $(seq $EV_TOTAL)
do
local a=EV"$i"_GPIO
@@ -18,8 +22,8 @@ function setup_drv {
fi
done
# Inizializza i driver per gli altri gpio
for gpio in "$SUPPLY_GPIO_1" "$SUPPLY_GPIO_2" "$RAIN_GPIO"
# Raccoglie i nomi dei driver utilizzati per gli altri gpio
for gpio in "$SUPPLY_GPIO_1" "$SUPPLY_GPIO_2" "$RAIN_GPIO" "$WEATHER_SERVICE"
do
if [[ "$gpio" == drv:* ]]; then
local drv=`echo $gpio | $CUT -d':' -f2,2`
@@ -29,10 +33,13 @@ function setup_drv {
fi
done
#
# Esegue l'unclusione dei file dei driver e per ognuno lancia l'eventuale funzione di setup
#
local file_drv
for drv in "${list_drv[@]}"
do
for callback in config common init rele supply rainsensor setup
for callback in config common init rele supply rainsensor rainonline setup
do
file_drv="$DIR_SCRIPT/drv/$drv/$callback.include.sh"
if [ -f "$file_drv" ]; then
@@ -87,7 +94,7 @@ function drv_rele_init {
$GPIO -g mode $idx out # setta il gpio nella modalita di scrittura
# Il driver definito non è stato trovato
elif [ "$fnc" == "drvnotfound" ]; then
log_write "Driver not found: $idx"
log_write "drv" "error" "Driver not found: $idx"
message_write "warning" "Driver not found: $idx"
else
echo "$(date) $fnc arg:$idx" >> "$LOG_OUTPUT_DRV_FILE"
@@ -109,7 +116,7 @@ function drv_rele_close {
$GPIO -g write $idx $RELE_GPIO_CLOSE
# Il driver definito non è stato trovato
elif [ "$fnc" == "drvnotfound" ]; then
log_write "Driver not found: $idx"
log_write "drv" "error" "Driver not found: $idx"
message_write "warning" "Driver not found: $idx"
return 1
else
@@ -135,7 +142,7 @@ function drv_rele_open {
$GPIO -g write $idx $RELE_GPIO_OPEN
# Il driver definito non è stato trovato
elif [ "$fnc" == "drvnotfound" ]; then
log_write "Driver not found: $idx"
log_write "drv" "error" "Driver not found: $idx"
message_write "warning" "Driver not found: $idx"
return 1
else
@@ -165,7 +172,7 @@ function drv_supply_bistable_init {
$GPIO -g mode $idx1 out
# Il driver definito non è stato trovato
elif [ "$fnc1" == "drvnotfound" ]; then
log_write "Driver not found: $idx1"
log_write "drv" "error" "Driver not found: $idx1"
message_write "warning" "Driver not found: $idx1"
return
else
@@ -179,7 +186,7 @@ function drv_supply_bistable_init {
$GPIO -g mode $idx2 out
# Il driver definito non è stato trovato
elif [ "$fnc2" == "drvnotfound" ]; then
log_write "Driver not found: $idx2"
log_write "drv" "error" "Driver not found: $idx2"
message_write "warning" "Driver not found: $idx2"
else
echo "$(date) $fnc2 arg:$idx2" >> "$LOG_OUTPUT_DRV_FILE"
@@ -205,7 +212,7 @@ function drv_supply_positive {
$GPIO -g write $idx1 $SUPPLY_GPIO_POS
# Il driver definito non è stato trovato
elif [ "$fnc1" == "drvnotfound" ]; then
log_write "Driver not found: $idx1"
log_write "drv" "error" "Driver not found: $idx1"
message_write "warning" "Driver not found: $idx1"
return
else
@@ -218,7 +225,7 @@ function drv_supply_positive {
$GPIO -g write $idx2 $SUPPLY_GPIO_POS
# Il driver definito non è stato trovato
elif [ "$fnc2" == "drvnotfound" ]; then
log_write "Driver not found: $idx2"
log_write "drv" "error" "Driver not found: $idx2"
message_write "warning" "Driver not found: $idx2"
else
echo "$(date) $fnc2 arg:$idx2" >> "$LOG_OUTPUT_DRV_FILE"
@@ -244,7 +251,7 @@ function drv_supply_negative {
$GPIO -g write $idx1 $SUPPLY_GPIO_NEG
# Il driver definito non è stato trovato
elif [ "$fnc1" == "drvnotfound" ]; then
log_write "Driver not found: $idx1"
log_write "drv" "error" "Driver not found: $idx1"
message_write "warning" "Driver not found: $idx1"
return
else
@@ -257,7 +264,7 @@ function drv_supply_negative {
$GPIO -g write $idx2 $SUPPLY_GPIO_NEG
# Il driver definito non è stato trovato
elif [ "$fnc2" == "drvnotfound" ]; then
log_write "Driver not found: $idx2"
log_write "drv" "error" "Driver not found: $idx2"
message_write "warning" "Driver not found: $idx2"
else
echo "$(date) $fnc2 arg:$idx2" >> "$LOG_OUTPUT_DRV_FILE"
@@ -281,7 +288,7 @@ function drv_rain_sensor_init {
$GPIO -g mode $idx in
# Il driver definito non è stato trovato
elif [ "$fnc" == "drvnotfound" ]; then
log_write "Driver not found: $idx"
log_write "drv" "error" "Driver not found: $idx"
message_write "warning" "Driver not found: $idx"
else
echo "$(date) $fnc arg:$idx" >> "$LOG_OUTPUT_DRV_FILE"
@@ -305,7 +312,34 @@ function drv_rain_sensor_get {
vret=`$GPIO -g read $idx`
# Il driver definito non è stato trovato
elif [ "$fnc" == "drvnotfound" ]; then
log_write "Driver not found: $idx"
log_write "drv" "error" "Driver not found: $idx"
message_write "warning" "Driver not found: $idx"
else
echo "$(date) $fnc arg:$idx" >> "$LOG_OUTPUT_DRV_FILE"
vret=`$fnc "$idx"`
fi
echo "$vret"
}
#
# Legge lo stato le condizioni meteo dal servizio online
#
# $1 identificativo gpio sensore pioggia
#
function drv_rain_online_get {
local idx="$1"
local fnc=`get_driver_callback "rain_online_get" "$idx"`
local vret=""
# Nessun driver definito, esegue la lettura del sensore tramite gpio del raspberry
if [ -z "$fnc" ]; then
log_write "drv" "error" "Driver not found: $idx"
message_write "warning" "Driver not found: $idx"
# Il driver definito non è stato trovato
elif [ "$fnc" == "drvnotfound" ]; then
log_write "drv" "error" "Driver not found: $idx"
message_write "warning" "Driver not found: $idx"
else
echo "$(date) $fnc arg:$idx" >> "$LOG_OUTPUT_DRV_FILE"

13
include/events.include.sh
View File

@@ -17,12 +17,14 @@ function trigger_event {
case "$EVENT" in
"ev_open_before" | "ev_open_after")
ALIAS="$2"
CURRENT_EVENT_ALIAS="$ALIAS"
FORCE="$3"
$f "$EVENT" "$ALIAS" "$FORCE" `date +%s` &> /dev/null
;;
"ev_open_in_before")
ALIAS="$2"
CURRENT_EVENT_ALIAS="$ALIAS"
FORCE="$3"
local MINUTE_START="$4"
local MINUTE_STOP="$5"
@@ -31,6 +33,7 @@ function trigger_event {
"ev_open_in_after")
ALIAS="$2"
CURRENT_EVENT_ALIAS="$ALIAS"
FORCE="$3"
local CRON_START="$4"
local CRON_STOP="$5"
@@ -39,6 +42,7 @@ function trigger_event {
"ev_close_before" | "ev_close_after")
ALIAS="$2"
CURRENT_EVENT_ALIAS="$ALIAS"
$f "$EVENT" "$ALIAS" `date +%s` &> /dev/null
;;
@@ -89,7 +93,13 @@ function trigger_event {
local ec=$?
#echo "$EVENT ec=$ec" >> /tmp/piGarden.testevent
#CURRENT_EVENT="$EVENT"
#mqtt_status &
if [ $ec -ne 0 ]; then
CURRENT_EVENT="$EVENT"
mqtt_status &
log_write "Stop events chain for exit code $ec in $current_event_dir/$f"
return $ec
fi
@@ -98,6 +108,9 @@ function trigger_event {
fi
CURRENT_EVENT="$EVENT"
mqtt_status &
}

135
include/rain.include.sh
View File

@@ -1,47 +1,48 @@
#
# Controlla se se piove tramite http://api.wunderground.com/
# Esegue controllo meteo tramite servizio online configurato in WEATHER_SERVICE
#
function check_rain_online {
if [ "$WEATHER_SERVICE" == "none" ]; then
log_write "rain" "warning" "check_rain_online - online service is disabled"
return
fi
trigger_event "check_rain_online_before" ""
# http://www.wunderground.com/weather/api/d/docs?d=resources/phrase-glossary&MR=1
$CURL http://api.wunderground.com/api/$WUNDERGROUND_KEY/conditions/q/$WUNDERGROUND_LOCATION.json > $TMP_PATH/check_rain_online.json
local weather=`cat $TMP_PATH/check_rain_online.json | $JQ -M ".current_observation.weather"`
local current_observation=`cat $TMP_PATH/check_rain_online.json | $JQ -M ".current_observation"`
local local_epoch=`cat $TMP_PATH/check_rain_online.json | $JQ -M -r ".current_observation.local_epoch"`
local local_epoch=`drv_rain_online_get $WEATHER_SERVICE`
local current_state_rain_online=""
local last_state_rain_online=`cat "$STATUS_DIR/last_state_rain_online" 2> /dev/null`
#echo $weather
#weather="[Light/Heavy] Drizzle"
if [ "$weather" = "null" ]; then
log_write "check_rain_online - failed read online data"
else
log_write "check_rain_online - weather=$weather, local_epoch=$local_epoch"
#if [[ "$weather" == *"Clear"* ]]; then
#if [[ "$weather" == *"Rain"* ]]; then
if [[ "$weather" == *"Rain"* ]] ||
[[ "$weather" == *"Snow"* ]] ||
[[ "$weather" == *"Hail"* ]] ||
[[ "$weather" == *"Ice"* ]] ||
[[ "$weather" == *"Thunderstorm"* ]] ||
[[ "$weather" == *"Drizzle"* ]];
then
current_state_rain_online='rain'
echo $local_epoch > "$STATUS_DIR/last_rain_online"
local weather="null"
if [[ $local_epoch =~ ^-?[0-9]+$ ]]; then
if [ $local_epoch -eq 0 ]; then
log_write "rain" "error" "check_rain_online - failed read online data"
else
current_state_rain_online='norain'
fi
echo "$current_observation" > "$STATUS_DIR/last_weather_online"
if [ "$current_state_rain_online" != "$last_state_rain_online" ]; then
echo "$current_state_rain_online" > "$STATUS_DIR/last_state_rain_online"
trigger_event "check_rain_online_change" "$current_state_rain_online" "$weather"
if [ $local_epoch -gt 0 ]; then
current_state_rain_online='rain'
echo $local_epoch > "$STATUS_DIR/last_rain_online"
else
current_state_rain_online='norain'
fi
weather=$(cat "$STATUS_DIR/last_weather_online" | $JQ -M ".weather")
log_write "rain" "info" "check_rain_online - weather=$weather, local_epoch=$local_epoch"
if [ "$current_state_rain_online" != "$last_state_rain_online" ]; then
echo "$current_state_rain_online" > "$STATUS_DIR/last_state_rain_online"
trigger_event "check_rain_online_change" "$current_state_rain_online" "$weather"
fi
fi
else
log_write "rain" "error" "check_rain_online - failed read online data"
fi
trigger_event "check_rain_online_after" "$current_state_rain_online" "$weather"
}
#
# Controlla se se piove tramite sensore
#
@@ -56,11 +57,11 @@ function check_rain_sensor {
current_state_rain_sensor='rain'
local local_epoch=`date +%s`
echo $local_epoch > "$STATUS_DIR/last_rain_sensor"
log_write "check_rain_sensor - now it's raining ($local_epoch)"
log_write "rain" "info" "check_rain_sensor - now it's raining ($local_epoch)"
#return $local_epoch
else
current_state_rain_sensor='norain'
log_write "check_rain_sensor - now is not raining"
log_write "rain" "info" "check_rain_sensor - now is not raining"
fi
if [ "$current_state_rain_sensor" != "$last_state_rain_sensor" ]; then
echo "$current_state_rain_sensor" > "$STATUS_DIR/last_state_rain_sensor"
@@ -68,17 +69,38 @@ function check_rain_sensor {
fi
trigger_event "check_rain_sensor_after" "$current_state_rain_sensor"
else
log_write "Rain sensor not present"
log_write "rain" "warning" "Rain sensor not present"
fi
}
#
# Chiude tutte le elettrovalvole se sta piovendo
# Chiude tutte le elettrovalvole se sta piovendo oppure chiude quelle che hanno raggiunto l'mudità massima impostata
# Eseguie il controllo in tempo reale sul sensore hardware e sui dati dell'ultima chiamata eseguita online
#
function close_all_for_rain {
#
# Chiude le elettrovalvole che hanno raggiunto l'umidità del terreno impostata in EVx_SENSOR_MOISTURE
#
for i in $(seq $EV_TOTAL)
do
local a=EV"$i"_ALIAS
local al=${!a}
ev_status $al
local state=$?
local moisture=$(ev_check_moisture_autoclose $i)
if [ "$state" = "1" ] && [ "$moisture" -gt 0 ]; then
ev_close $al
log_write "irrigate" "warning" "close_all_for_rain - Close solenoid '$al' because maximum soil moisture has been reached"
fi
done
#
# Chiude le elettrovalvole in caso di pioggia
#
local close_all=0
local now=`date +%s`
@@ -101,6 +123,12 @@ function close_all_for_rain {
fi
if [ "$close_all" = "1" ]; then
#
# PIOVE
# Valuta se la sciare aperte le elettrovalvole in caso l'umidità del sensore non sia stata raggiunta
#
for i in $(seq $EV_TOTAL)
do
local a=EV"$i"_ALIAS
@@ -109,14 +137,51 @@ function close_all_for_rain {
local evnorain=${!a}
ev_status $al
local state=$?
local moisture=$(ev_check_moisture $i)
#echo "$al = $state"
if [ "$state" = "1" ] && [ "$evnorain" != "1" ]; then
if [ "$state" = "1" ] && [ "$evnorain" != "1" ] && [ "$moisture" -ne 0 ]; then
ev_close $al
log_write "close_all_for_rain - Close solenoid '$al' for rain"
log_write "irrigate" "warning" "close_all_for_rain - Close solenoid '$al' for rain"
fi
done
fi
}
#
# Mostra il timestamp dell'ultima pioggia rilevato dal sensore
#
function last_rain_sensor_timestamp {
cat "$STATUS_DIR/last_rain_sensor" 2> /dev/null
}
#
# Mostra il timestamp dell'ultima pioggia rilevato dal servizio online
#
function last_rain_online_timestamp {
cat "$STATUS_DIR/last_rain_online" 2> /dev/null
}
#
# Resetta il timestamp dell'ultima pioggia rilevato dal sensore
#
function reset_last_rain_sensor_timestamp {
trigger_event "reset_last_rain_sensor_timestamp_before" ""
rm "$STATUS_DIR/last_rain_sensor" 2> /dev/null
trigger_event "reset_last_rain_sensor_timestamp_after" ""
log_write "rain" "info" "reset_last_rain_sensor_timestamp"
}
#
# Resetta mostra il timestamp dell'ultima pioggia rilevato dal servizio online
#
function reset_last_rain_online_timestamp {
trigger_event "reset_last_rain_online_timestamp_before" ""
rm "$STATUS_DIR/last_rain_online" 2> /dev/null
trigger_event "reset_last_rain_online_timestamp_before" ""
log_write "rain" "info" "reset_last_rain_online_timestamp"
}

249
include/sensor.include.sh Normal file
View File

@@ -0,0 +1,249 @@
#
# Imposta lo stato di una elettrovalvola
# $1 numero del sensore
# $2 tipologia dello stato
# $3 stato da scrivere
#
function sensor_set_state {
trigger_event "sensor_set_state_before" $1 $2 $3
echo "$3" > "$STATUS_DIR/sensor$1_$2"
trigger_event "sensor_set_state_after" $1 $2 $3
}
#
# Legge lo stato di un sensore
# $1 numero del sensore
# $2 tipologia dello stato
#
function sensor_get_state {
if [ ! -f "$STATUS_DIR/sensor$1_$2" ]; then
sensor_set_state $1 $2 ""
fi
local state=$(cat "$STATUS_DIR/sensor$1_$2" 2> /dev/null)
echo $state
}
#
# Recupera il numero di un sensore in base all'alias
# $1 alias del sensore
#
function sensor_alias2number {
for i in $(seq $EV_TOTAL)
do
a=SENSOR"$i"_ALIAS
av=${!a}
if [ "$av" == "$1" ]; then
return $i
fi
done
log_write "general" "error" "ERROR sensor alias not found: $1"
message_write "warning" "Sensor alias not found"
mqtt_status
exit 1
}
#
# Verifica se un alias di un sensore esiste
# $1 alias dell'elettrovalvola
#
function sensor_alias_exists {
local vret='FALSE'
for i in $(seq $EV_TOTAL)
do
a=SENSOR"$i"_ALIAS
av=${!a}
if [ "$av" == "$1" ]; then
vret='TRUE'
fi
done
echo $vret
}
#
# Mostra lo stato di tutte le elettrovalvole
#
function sensor_status_all {
for i in $(seq $SENSOR_TOTAL)
do
a=SENSOR"$i"_ALIAS
av=${!a}
for t in $SENSOR_STATE_TYPE
do
local state=$(sensor_get_state $i $t)
echo -e "$av: $t $state"
done
done
}
#
# Mostra lo stato di un sensore
# $1 alias sensore
# $2 tipologia dello stato
#
function sensor_status {
sensor_alias2number $1
i=$?
if [ -z "$2" ]; then
for t in $SENSOR_STATE_TYPE
do
local state=$(sensor_get_state $i $t)
echo -e "$av: $t $state"
done
else
local state=$(sensor_get_state $i $2)
echo -e "$state"
fi
}
#
# Imposta lo stato di un sensore per alias
# $1 alias sensore
# $2 tipologia dello stato
# $3 stato da imopostare
#
function sensor_status_set {
sensor_alias2number $1
i=$?
sensor_set_state $i $2 $3
mqtt_status
}
#
# Stampa la lista degli alias dei sensori
#
function list_alias_sensor {
for i in $(seq $SENSOR_TOTAL)
do
local a=SENSOR"$i"_ALIAS
local al=${!a}
echo $al
done
}
#
# Stampa lo stato di tutti i sensori in formato json
#
function json_sensor_status_all {
local js=""
local js_item=""
local js_type=""
for i in $(seq $SENSOR_TOTAL)
do
a=SENSOR"$i"_ALIAS
av=${!a}
js_type=""
for t in $SENSOR_STATE_TYPE
do
local state=$(sensor_get_state $i $t)
js_type="$js_type \"$t\": \"$state\", "
done
js_type="${js_type::-2}"
js_item="$js_item \"$av\":{$js_type}, ";
done
if [[ ! -z $js_item ]]; then
js_item="${js_item::-2}"
fi
js="\"sensor\": {$js_item}"
echo $js
}
#
# Controlla se la zona comandata da un elettrovalvola ha raggiunto l'umidità necessaria per non fare partire l'irrigazione,
# faerla chiudere in caso di pioggia.
# Se è stata superata l'umidità indicata in EVx_SENSOR_MOISTURE ritorna l'umidità attuale del sensore relativo all'elettrovalvola
# in caso contrario ritorna 0, se no è impostato il parametro EV_xSENSOR_ALIAS o EVxSENSOR?MOISTURE ritorna il valore -1
#
# $1 numero elettrovalvola da controllare
#
function ev_check_moisture {
local s=EV"$1"_SENSOR_ALIAS
local sa=${!s}
if [[ -z $sa ]]; then
echo -1
return
fi
local moisture=$(sensor_status $sa moisture)
local s=EV"$1"_SENSOR_MOISTURE
local max_moisture=${!s}
if [ -z $max_moisture ]; then
echo -1
return
fi
if [ $moisture -gt $max_moisture ]; then
log_write "sensor" "info" "ev_check_moisture_autoclose: humidity of the \"$sa\" sensor reached: $moisture%"
echo $moisture
return $moisture
fi
echo 0
return 0
}
#
# Controlla se la zona comandata da un elettrovalvola ha raggiunto l'umidità necessaria per essere chiusa in automatico
# Se è stata superata l'umidità indicata in EVx_SENSOR_MOISTURE ritorna l'umidità attuale del sensore relativo all'elettrovalvola
# in caso contrario ritorna 0, se no è impostato il parametro EV_xSENSOR_ALIAS, EVxSENSOR_MOISTURE o
# EVxSENSOR_MOISTURE_AUTOCLOSE ritorna il valore -1
#
# $1 numero elettrovalvola da controllare
#
function ev_check_moisture_autoclose {
local s=EV"$1"_SENSOR_ALIAS
local sa=${!s}
if [[ -z $sa ]]; then
echo -1
return
fi
local moisture=$(sensor_status $sa moisture)
local s=EV"$1"_SENSOR_MOISTURE
local max_moisture=${!s}
if [ -z $max_moisture ]; then
echo -1
return
fi
local s=EV"$1"_SENSOR_MOISTURE_AUTOCLOSE
local autoclose=${!s}
if [ -z $autoclose ]; then
echo -1
return
fi
if [ $autoclose -ne 1 ]; then
echo -1
return
fi
if [ $moisture -gt $max_moisture ]; then
log_write "sensor" "info" "ev_check_moisture_autoclose: humidity of the \"$sa\" sensor reached: $moisture%"
echo $moisture
return $moisture
fi
echo 0
return 0
}

64
include/socket.include.sh
View File

@@ -19,7 +19,7 @@ function stop_socket_server {
exit 1
fi
log_write "stop socket server"
log_write "socket_server" "info" "stop socket server"
kill -9 $(list_descendants `cat "$TCPSERVER_PID_FILE"`) 2> /dev/null
kill -9 `cat "$TCPSERVER_PID_FILE"` 2> /dev/null
@@ -44,7 +44,7 @@ function socket_server_command {
user=$(echo "$user" | $TR -d '[\r\n]')
password=$(echo "$password" | $TR -d '[\r\n]')
if [ "$user" != "$TCPSERVER_USER" ] || [ "$password" != "$TCPSERVER_PWD" ]; then
log_write "socket connection from: $TCPREMOTEIP - Bad socket server credentials - user:$user"
log_write "socket_server" "warning" "socket connection from: $TCPREMOTEIP - Bad socket server credentials - user:$user"
json_error 0 "Bad socket server credentials"
return
fi
@@ -61,9 +61,9 @@ function socket_server_command {
arg7=$(echo "$line " | $CUT -d ' ' -f7)
arg8=$(echo "$line " | $CUT -d ' ' -f8)
log_write "socket connection from: $TCPREMOTEIP - command: $arg1 $arg2 $arg3 $arg4 $arg5 $arg6 $arg7 $arg8"
log_write "socket_server" "info" "socket connection from: $TCPREMOTEIP - command: $arg1 $arg2 $arg3 $arg4 $arg5 $arg6 $arg7 $arg8"
reset_messages &> /dev/null
#reset_messages &> /dev/null
case "$arg1" in
status)
@@ -102,6 +102,12 @@ function socket_server_command {
json_status
;;
cron_enable_all_open_close)
cron_enable_all_open_close &> /dev/null
message_write "success" "All solenoid enabled"
json_status
;;
set_general_cron)
local vret=""
for i in $arg2 $arg3 $arg4 $arg5 $arg6 $arg7
@@ -121,7 +127,7 @@ function socket_server_command {
if [[ ! -z $vret ]]; then
json_error 0 "Cron set failed"
log_write "Cron set failed: $vret"
log_write "socket_server" "error" "Cron set failed: $vret"
else
message_write "success" "Cron set successfull"
json_status
@@ -136,7 +142,7 @@ function socket_server_command {
if [[ ! -z $vret ]]; then
json_error 0 "Cron set failed"
log_write "Cron del failed: $vret"
log_write "socket_server" "error" "Cron del failed: $vret"
else
message_write "success" "Cron set successfull"
json_status
@@ -151,7 +157,7 @@ function socket_server_command {
if [[ ! -z $vret ]]; then
json_error 0 "Cron del failed"
log_write "Cron del failed: $vret"
log_write "socket_server" "error" "Cron del failed: $vret"
else
message_write "success" "Scheduled start successfully deleted"
json_status "get_cron_open_in:$arg2"
@@ -167,7 +173,7 @@ function socket_server_command {
if [[ ! -z $vret ]]; then
json_error 0 "Cron set failed"
log_write "Cron set failed: $vret"
log_write "socket_server" "error" "Cron set failed: $vret"
else
message_write "success" "Cron set successfull"
json_status
@@ -182,7 +188,7 @@ function socket_server_command {
if [[ ! -z $vret ]]; then
json_error 0 "Cron set failed"
log_write "Cron set failed: $vret"
log_write "socket_server" "error" "Cron set failed: $vret"
else
message_write "success" "Cron set successfull"
json_status
@@ -197,7 +203,7 @@ function socket_server_command {
if [[ ! -z $vret ]]; then
json_error 0 "Cron set failed"
log_write "Cron set failed: $vret"
log_write "socket_server" "error" "Cron set failed: $vret"
else
message_write "success" "Cron set successfull"
json_status
@@ -205,6 +211,21 @@ function socket_server_command {
;;
cmd_pigardensched)
local vret=""
vret=`cmd_pigardensched $arg2 $arg3 $arg4 $arg5 $arg6`
if [[ ! -z $vret ]]; then
json_error 0 "piGardenSched command failed"
log_write "socket_server" "error" "piGardenSched command failed: $vret"
else
message_write "success" "Schedule set successfull"
json_status
fi
;;
reboot)
message_write "warning" "System reboot is started"
json_status
@@ -219,13 +240,34 @@ function socket_server_command {
nohup $PATH_SCRIPT poweroff > /dev/null 2>&1 &
;;
reset_last_rain_sensor_timestamp)
reset_last_rain_sensor_timestamp
message_write "success" "Timestamp of last sensor rain successfull reset"
json_status
;;
reset_last_rain_online_timestamp)
reset_last_rain_online_timestamp
message_write "success" "Timestamp of last online rain successfull reset"
json_status
;;
sensor_status_set)
if [ "empty$arg2" == "empty" ]; then
json_error 0 "Alias sensor not specified"
else
sensor_status_set $arg2 $arg3 $arg4 &> /dev/null
json_status
fi
;;
*)
json_error 0 "invalid command"
;;
esac
reset_messages &> /dev/null
#reset_messages &> /dev/null
}

455
piGarden.sh
View File

@@ -10,7 +10,7 @@
#
function initialize {
log_write "Run initialize"
log_write "general" "info" "Run initialize"
unlock
@@ -50,20 +50,20 @@ function initialize {
# Inizializza il sensore di rilevamento pioggia
if [ -n "$RAIN_GPIO" ]; then
drv_rain_sensor_init "$RAIN_GPIO"
log_write "Rain sensor initialized"
log_write "rain" "info" "Rain sensor initialized"
else
log_write "Rain sensor not present"
log_write "rain" "info" "Rain sensor not present"
fi
trigger_event "init_after" ""
log_write "End initialize"
log_write "general" "info" "End initialize"
}
#
# Elimina i file contenente i messaggi da inserire nel json status
#
function reset_messages {
function reset_messages_old {
rm -f "$LAST_INFO_FILE.$!"
rm -f "$LAST_WARNING_FILE.$!"
rm -f "$LAST_SUCCESS_FILE.$!"
@@ -85,36 +85,51 @@ function ev_open {
local EVNORAIN=`ev_number2norain $EVNUM`
local EV_IS_REMOTE_VAR=EV"$EVNUM"_REMOTE
local EV_IS_REMOTE=${!EV_IS_REMOTE_VAR}
local EV_IS_MONOSTABLE_VAR=EV"$EVNUM"_MONOSTABLE
local EV_IS_MONOSTABLE=${!EV_IS_MONOSTABLE_VAR}
if [ ! "$2" = "force" ] && [ "$EVNORAIN" != "1" ]; then
if [[ "$NOT_IRRIGATE_IF_RAIN_ONLINE" -gt 0 && -f $STATUS_DIR/last_rain_online ]]; then
local last_rain=`cat $STATUS_DIR/last_rain_online`
local now=`date +%s`
local dif=0
let "dif = now - last_rain"
if [ $dif -lt $NOT_IRRIGATE_IF_RAIN_ONLINE ]; then
trigger_event "ev_not_open_for_rain_online" "$1"
trigger_event "ev_not_open_for_rain" "$1"
log_write "Solenoid '$1' not open for rain (online check)"
message_write "warning" "Solenoid not open for rain"
return
if [ ! "$2" = "force" ]; then
local moisture=$(ev_check_moisture $EVNUM)
if [ $moisture -gt 0 ]; then
message_write "warning" "solenoid not open because maximum soil moisture has been reached"
trigger_event "ev_not_open_for_moisture" "$1"
log_write "irrigate" "warning" "Solenoid '$1' not open because maximum soil moisture has been reached"
return
fi
if [ "$EVNORAIN" != "1" ]; then
if [[ "$NOT_IRRIGATE_IF_RAIN_ONLINE" -gt 0 && -f $STATUS_DIR/last_rain_online ]]; then
local last_rain=`cat $STATUS_DIR/last_rain_online`
local now=`date +%s`
local dif=0
let "dif = now - last_rain"
if [ $dif -lt $NOT_IRRIGATE_IF_RAIN_ONLINE ] && [ $moisture -ne 0 ]; then
message_write "warning" "Solenoid not open for rain"
trigger_event "ev_not_open_for_rain_online" "$1"
trigger_event "ev_not_open_for_rain" "$1"
log_write "irrigate" "warning" "Solenoid '$1' not open for rain (online check)"
return
fi
fi
check_rain_sensor
if [[ "$NOT_IRRIGATE_IF_RAIN_SENSOR" -gt 0 && -f $STATUS_DIR/last_rain_sensor && $moisture -ne 0 ]]; then
local last_rain=`cat $STATUS_DIR/last_rain_sensor`
local now=`date +%s`
local dif=0
let "dif = now - last_rain"
if [ $dif -lt $NOT_IRRIGATE_IF_RAIN_SENSOR ]; then
message_write "warning" "Solenoid not open for rain"
trigger_event "ev_not_open_for_rain_sensor" "$1"
trigger_event "ev_not_open_for_rain" "$1"
log_write "irrigate" "warning" "Solenoid '$1' not open for rain (sensor check)"
return
fi
fi
fi
check_rain_sensor
if [[ "$NOT_IRRIGATE_IF_RAIN_SENSOR" -gt 0 && -f $STATUS_DIR/last_rain_sensor ]]; then
local last_rain=`cat $STATUS_DIR/last_rain_sensor`
local now=`date +%s`
local dif=0
let "dif = now - last_rain"
if [ $dif -lt $NOT_IRRIGATE_IF_RAIN_SENSOR ]; then
trigger_event "ev_not_open_for_rain_sensor" "$1"
trigger_event "ev_not_open_for_rain" "$1"
log_write "Solenoid '$1' not open for rain (sensor check)"
message_write "warning" "Solenoid not open for rain"
return
fi
fi
fi
local state=1
@@ -124,15 +139,16 @@ function ev_open {
trigger_event "ev_open_before" "$1" "$2"
if [ $? -ne 0 ]; then
log_write "Solenoid '$1' not open due to external event"
log_write "irrigate" "warning" "Solenoid '$1' not open due to external event"
message_write 'warning' "Solenoid not open due to external event"
mqtt_status
return
fi
lock
# Gestisce l'apertura dell'elettrovalvola in base alla tipologia (monostabile / bistabile)
if [ "$EV_MONOSTABLE" == "1" ] || [ "$EV_IS_REMOTE" == "1" ]; then
if [ "$EV_MONOSTABLE" == "1" ] || [ "$EV_IS_REMOTE" == "1" ] || [ "$EV_IS_MONOSTABLE" == "1" ]; then
drv_rele_close "$g"
if [ $? -eq 1 ]; then
unlock
@@ -147,12 +163,12 @@ function ev_open {
ev_set_state $EVNUM $state
log_write "irrigate" "info" "Solenoid '$1' open"
message_write "success" "Solenoid open"
trigger_event "ev_open_after" "$1" "$2"
unlock
log_write "Solenoid '$1' open"
message_write "success" "Solenoid open"
}
#
@@ -173,21 +189,25 @@ function ev_open_in {
if ! [[ $minute_start =~ $re ]] ; then
echo -e "Time start of irrigation is wrong or not specified"
message_write "warning" "Time start of irrigation is wrong or not specified"
mqtt_status
return 1
fi
if ! [[ $minute_stop =~ $re ]] ; then
echo -e "Time stop of irrigation is wrong or not specified"
message_write "warning" "Time stop of irrigation is wrong or not specified"
mqtt_status
return 1
fi
if [ $minute_stop -lt "1" ] ; then
echo -e "Time stop of irrigation is wrong"
message_write "warning" "Time stop of irrigation is wrong"
mqtt_status
return 1
fi
if [ "empty$alias" == "empty" ]; then
echo -e "Alias solenoid not specified"
message_write "warning" "Alias solenoid not specified"
mqtt_status
return 1
fi
@@ -216,9 +236,6 @@ function ev_open_in {
trigger_event "ev_open_in_after" "$3" "$4" "$cron_start" "$cron_stop"
#echo $cron_start
#echo $cron_stop
}
@@ -255,13 +272,13 @@ function ev_close {
ev_set_state $EVNUM 0
log_write "irrigate" "info" "Solenoid '$1' close"
message_write "success" "Solenoid close"
trigger_event "ev_close_after" "$1"
unlock
log_write "Solenoid '$1' close"
message_write "success" "Solenoid close"
cron_del open_in_stop $1 > /dev/null 2>&1
}
@@ -281,7 +298,9 @@ function supply_negative {
#
# Scrive un messaggio nel file di log
# $1 log da scrivere
# $1 type
# $2 level
# $3 log da scrivere
#
function log_write {
if [ -e "$LOG_FILE" ]; then
@@ -292,7 +311,33 @@ function log_write {
fi
fi
echo -e "`date`\t\t$1" >> $LOG_FILE
if [ -e "$LOG_OUTPUT_DRV_FILE" ]; then
local actualsize=$($WC -c <"$LOG_OUTPUT_DRV_FILE")
if [ $actualsize -ge $LOG_FILE_MAX_SIZE ]; then
$GZIP $LOG_OUTPUT_DRV_FILE
$MV $LOG_OUTPUT_DRV_FILE.gz $LOG_OUTPUT_DRV_FILE.`date +%Y%m%d%H%M`.gz
fi
fi
echo -e "`date`\t\t$1\t$2\t$3" >> $LOG_FILE
log_send "$1" "$2" "`date '+%Y-%m-%d %H:%M:%S'`" "$3"
}
#
# Invia un log verso piGardenWeb
# $1 type
# $2 level
# $3 date time
# $4 messaggio
#
function log_send {
if [[ ! -z "$LOG_URL" ]]; then
$CURL $LOG_CURL_PARAM "$LOG_URL" -d "api_token=$LOG_API_TOKEN&type=$1&level=$2&datetime_log=$3&message=$4" &> /dev/null &
fi
}
#
@@ -301,6 +346,20 @@ function log_write {
# $2 messaggio
#
function message_write {
local file_message=""
if [ "$1" = 'info' ]; then
MESSAGE_INFO="$2"
elif [ "$1" = "warning" ]; then
MESSAGE_WARNING="$2"
elif [ "$1" = "success" ]; then
MESSAGE_SUCCESS="$2"
else
return
fi
}
function message_write_old {
local file_message=""
if [ "$1" = 'info' ]; then
file_message="$LAST_INFO_FILE.$!"
@@ -347,8 +406,9 @@ function gpio_alias2number {
fi
done
log_write "ERROR solenoid alias not found: $1"
log_write "general" "error" "ERROR solenoid alias not found: $1"
message_write "warning" "Solenoid alias not found"
mqtt_status
exit 1
}
@@ -366,8 +426,9 @@ function ev_alias2number {
fi
done
log_write "ERROR solenoid alias not found: $1"
log_write "general" "error" "ERROR solenoid alias not found: $1"
message_write "warning" "Solenoid alias not found"
mqtt_status
exit 1
}
@@ -452,7 +513,7 @@ function close_all {
#echo "$al = $state"
if [[ "$state" -gt "0" || "$1" = "force" ]]; then
ev_close $al
log_write "close_all - Close solenoid '$al' for rain"
log_write "irrigate" "info" "close_all - Close solenoid '$al' for rain"
fi
done
@@ -475,8 +536,9 @@ function list_alias {
#
# Stampa un json contanente lo status della centralina
# $1 .. $6 parametri opzionali
# - get_cron: aggiunge i dati relativi ai crontab delle scehdulazioni di apertura/chisura delle elettrovalvole
# - get_cron: aggiunge i dati relativi ai crontab delle scehdulazioni di apertura/chisura
# - get_cron_open_in: aggiunge i dati relativi ai crontab degli avvii ritardati eseguiti con il comando open_in
# - get_schedule: aggiunge i dati relativi alle schedulazioni di piGardenSched
#
function json_status {
local json=""
@@ -490,6 +552,13 @@ function json_status {
local last_success=""
local with_get_cron="0"
local with_get_cron_open_in="0"
local with_get_schedule="0"
local current_pid=$!
local json_event="\"event\": {\"event\": \"$CURRENT_EVENT\", \"alias\": \"$CURRENT_EVENT_ALIAS\"}"
if [ "$PARENT_PID" -gt "0" ]; then
current_pid=$PARENT_PID
fi
local vret=""
for i in $1 $2 $3 $4 $5 $6
@@ -502,9 +571,12 @@ function json_status {
with_get_cron_open_in="1"
elif [[ "$i" == get_cron_open_in:* ]]; then
with_get_cron_open_in="${i#get_cron_open_in:}"
elif [ $i = "get_schedule" ] && [[ $PIGARDENSCHED == "1" ]]; then
with_get_schedule="1"
fi
done
local json_ev=""
for i in $(seq $EV_TOTAL)
do
local a=EV"$i"_ALIAS
@@ -514,9 +586,14 @@ function json_status {
if [ -n "$json" ]; then
json="$json,"
fi
json="$json\"$i\":{\"name\":\"$av\",\"state\":$sv}"
json="$json\"$av\":{\"name\":\"$av\",\"state\":$sv}"
if [ -n "$json_ev" ]; then
json_ev="$json_ev,"
fi
json_ev="$json_ev\"$a\":{\"alias\":\"$av\"}"
done
json="\"zones\":{$json}"
json="\"zones\":{$json},\"ev\":{$json_ev}"
local last_rain_sensor=`cat "$STATUS_DIR/last_rain_sensor" 2> /dev/null`
local last_rain_online=`cat "$STATUS_DIR/last_rain_online" 2> /dev/null`
@@ -525,15 +602,10 @@ function json_status {
if [[ ! -z "$last_weather_online" ]]; then
json_last_weather_online=$last_weather_online
fi
if [ -f "$LAST_INFO_FILE.$!" ]; then
last_info=`cat "$LAST_INFO_FILE.$!"`
fi
if [ -f "$LAST_WARNING_FILE.$!" ]; then
last_warning=`cat "$LAST_WARNING_FILE.$!"`
fi
if [ -f "$LAST_SUCCESS_FILE.$!" ]; then
last_success=`cat "$LAST_SUCCESS_FILE.$!"`
fi
last_info="$MESSAGE_INFO"
last_warning="$MESSAGE_WARNING"
last_success="$MESSAGE_SUCCESS"
local json_last_weather_online="\"last_weather_online\":$json_last_weather_online"
local json_last_rain_sensor="\"last_rain_sensor\":\"$last_rain_sensor\""
local json_last_rain_online="\"last_rain_online\":\"$last_rain_online\""
@@ -574,6 +646,24 @@ function json_status {
fi
local json_cron="\"cron\":{$json_get_cron}"
local json_get_schedule=""
local json_schedule=""
if [ $with_get_schedule != "0" ]; then
json_get_schedule=""
for scheduled in `$PIGARDENSCHED_PATH sched`
do
local ev=$(echo $scheduled|$CUT -f1 -d";")
local evcomplete="$ev"_ALIAS
local al=${!evcomplete}
local json_get_schedule="\"$ev\": {\"alias\": \"$al\", \"entry\": \"$scheduled\"}, $json_get_schedule"
done
if [[ ! -z $json_get_schedule ]]; then
json_get_schedule="${json_get_schedule::-2}"
fi
local json_schedule=", \"schedule\":{$json_get_schedule}"
fi
local json_get_cron_open_in=""
if [ $with_get_cron_open_in != "0" ]; then
local values_open_in=""
@@ -605,9 +695,11 @@ function json_status {
json_get_cron_open_in="\"open_in\": {$values_open_in},\"open_in_stop\": {$values_open_in_stop}"
fi
local json_cron_open_in="\"cron_open_in\":{$json_get_cron_open_in}"
local json_cron_open_in="\"cron_open_in\":{$json_get_cron_open_in}"
local json_timestamp="\"timestamp\": $(date +%s)"
local json_sensor="$(json_sensor_status_all)"
json="{$json_version,$json,$json_last_weather_online,$json_error,$json_last_info,$json_last_warning,$json_last_success,$json_last_rain_online,$json_last_rain_sensor,$json_cron,$json_cron_open_in}"
json="{$json_version,$json_timestamp,$json_event,$json,$json_sensor,$json_last_weather_online,$json_error,$json_last_info,$json_last_warning,$json_last_success,$json_last_rain_online,$json_last_rain_sensor,$json_cron,$json_cron_open_in $json_schedule}"
echo "$json"
@@ -615,6 +707,26 @@ function json_status {
}
#
# Invia al broker mqtt il json contentente lo stato del sistema
#
# $1 parent pid (opzionale)
#
function mqtt_status {
if [ ! $MQTT_ENABLE -eq 1 ]; then
return
fi
if [ ! -z "$1" ]; then
PARENT_PID=$1
fi
local js=$(json_status)
$MOSQUITTO_PUB -h $MQTT_HOST -p $MQTT_PORT -u $MQTT_USER -P $MQTT_PWD -i $MQTT_CLIENT_ID -r -t "$MQTT_TOPIC" -m "$js"
}
#
# Mostra il i parametri dello script
#
@@ -629,9 +741,25 @@ function show_usage {
echo -e "\t$NAME_SCRIPT list_alias view list of aliases solenoid"
echo -e "\t$NAME_SCRIPT ev_status alias show status solenoid"
echo -e "\t$NAME_SCRIPT ev_status_all show status solenoids"
echo -e "\t$NAME_SCRIPT json_status [get_cron|get_cron_open_in] show status in json format"
echo -e "\t$NAME_SCRIPT check_rain_online check rain from http://api.wunderground.com/"
echo -e "\n"
echo -e "\t$NAME_SCRIPT list_alias_sensor view list of aliases sensor"
echo -e "\t$NAME_SCRIPT sensor_status alias [type] show status sensor (type: $SENSOR_STATE_TYPE)"
echo -e "\t$NAME_SCRIPT sensor_status_set alias type value set status of sensor (type: $SENSOR_STATE_TYPE)"
echo -e "\t$NAME_SCRIPT sensor_status_all show status of all sensors"
echo -e "\n"
echo -e "\t$NAME_SCRIPT last_rain_sensor_timestamp show timestamp of last rain sensor"
echo -e "\t$NAME_SCRIPT last_rain_online_timestamp show timestamp of last rain online"
echo -e "\t$NAME_SCRIPT reset_last_rain_sensor_timestamp show timestamp of last rain sensor"
echo -e "\t$NAME_SCRIPT reset_last_rain_online_timestamp show timestamp of last rain online"
echo -e "\n"
echo -e "\t$NAME_SCRIPT json_status [get_cron|get_cron_open_in|get_schedule] show status in json format"
echo -e "\t$NAME_SCRIPT mqtt_status send status in json format to mqtt broker"
echo -e "\n"
echo -e "\t$NAME_SCRIPT check_rain_online check rain from online api service"
echo -e "\t$NAME_SCRIPT check_rain_sensor check rain from hardware sensor"
echo -e "\n"
echo -e "\t$NAME_SCRIPT close_all_for_rain close all solenoid if it's raining"
echo -e "\t$NAME_SCRIPT close_all [force] close all solenoid"
echo -e "\n"
@@ -660,6 +788,8 @@ function show_usage {
echo -e "\t$NAME_SCRIPT del_cron_close alias remove all crontab for close a solenoid"
echo -e "\t$NAME_SCRIPT get_cron_close alias get all crontab for close a solenoid"
echo -e "\n"
echo -e "\t$NAME_SCRIPT cmd_pigardensched [prm1 [prm2 [prm3]...]] performs a pigardensched command"
echo -e "\n"
echo -e "\t$NAME_SCRIPT debug1 [parameter]|[parameter]|..] Run debug code 1"
echo -e "\t$NAME_SCRIPT debug2 [parameter]|[parameter]|..] Run debug code 2"
}
@@ -698,12 +828,12 @@ function lock {
local foo=bar
else
if [ "$current_time" -gt "$max_time" ]; then
log_write "Maximum locked time reached"
log_write "general" "error" "Maximum locked time reached"
sleep $max_time
unlock
exit 1
fi
log_write "Sleep 1 second for locked state"
log_write "general" "info" "Sleep 1 second for locked state"
sleep 1
lock $current_time
return
@@ -752,7 +882,7 @@ function send_identifier {
fi
echo "$ID" > "$FILE_ID"
log_write "Send installation identifier to collect usage"
log_write "general" "info" "Send installation identifier to collect usage"
$CURL https://www.lejubila.net/statistic/collect_usage/piGarden/$ID/$VERSION/$SUB_VERSION/$RELEASE_VERSION > /dev/null 2>&1
@@ -780,6 +910,119 @@ function exec_reboot {
trigger_event "exec_reboot_after"
}
#
# Esegue un comando con piGardenSched
#
# $1 parametro 1
# $2 parametro 2
# $3 parametro 3
# $4 parametro 4
# $5 parametro 5
function cmd_pigardensched {
local foo="bar"
if [ $PIGARDENSCHED == 0 ]; then
echo "piGardenSched not configured in piGarden" >&2
log_write "piGardenSched" "error" "piGardenSched not configured in piGarden"
return
fi
$PIGARDENSCHED_PATH $1 $2 $3 $4 $5
if [ $? -ne 0 ]; then
echo "piGardenSched command failed"
fi
}
#
# Converte da gradi a direzione
#
# $1 gradi
#
function deg2dir {
local deg=$(echo $1 | $SED 's/\..*$//')
local dir=""
if [ "$deg" == "null" ]; then
echo ""
return
fi
# N 348.75 - 11.25
if [ $deg -le 11 ]; then
dir="North"
# NNE 11.25 - 33.75
elif [ $deg -le 33 ]; then
dir="NNE"
# NE 33.75 - 56.25
elif [ $deg -le 56 ]; then
dir="NE"
# ENE 56.25 - 78.75
elif [ $deg -le 78 ]; then
dir="ENE"
# E 78.75 - 101.25
elif [ $deg -le 101 ]; then
dir="East"
# ESE 101.25 - 123.75
elif [ $deg -le 123 ]; then
dir="ESE"
# SE 123.75 - 146.25
elif [ $deg -le 146 ]; then
dir="SE"
# SSE 146.25 - 168.75
elif [ $deg -le 168 ]; then
dir="SSE"
# S 168.75 - 191.25
elif [ $deg -le 191 ]; then
dir="South"
# SSW 191.25 - 213.75
elif [ $deg -le 213 ]; then
dir="SSW"
# SW 213.75 - 236.25
elif [ $deg -le 236 ]; then
dir="SW"
# WSW 236.25 - 258.75
elif [ $deg -le 258 ]; then
dir="WSW"
# W 258.75 - 281.25
elif [ $deg -le 281 ]; then
dir="West"
# WNW 281.25 - 303.75
elif [ $deg -le 303 ]; then
dir="WNW"
# NW 303.75 - 326.25
elif [ $deg -le 326 ]; then
dir="NW"
# NNW 326.25 - 348.75
elif [ $deg -le 348 ]; then
dir="NNW"
# N 348.75 - 11.25
else
dir="North"
fi
echo $dir
}
function debug1 {
. "$DIR_SCRIPT/debug/debug1.sh"
}
@@ -789,8 +1032,8 @@ function debug2 {
}
VERSION=0
SUB_VERSION=5
RELEASE_VERSION=6
SUB_VERSION=6
RELEASE_VERSION=5
DIR_SCRIPT=`dirname $0`
NAME_SCRIPT=${0##*/}
@@ -816,11 +1059,23 @@ fi
. "$DIR_SCRIPT/include/cron.include.sh"
. "$DIR_SCRIPT/include/socket.include.sh"
. "$DIR_SCRIPT/include/rain.include.sh"
. "$DIR_SCRIPT/include/sensor.include.sh"
. "$DIR_SCRIPT/include/events.include.sh"
LAST_INFO_FILE="$STATUS_DIR/last_info"
LAST_WARNING_FILE="$STATUS_DIR/last_warning"
LAST_SUCCESS_FILE="$STATUS_DIR/last_success"
MESSAGE_INFO=""
MESSAGE_WARNING=""
MESSAGE_SUCCESS=""
CURRENT_EVENT=""
CURRENT_EVENT_ALIAS=""
SENSOR_STATE_TYPE="moisture temperature fertility illuminance"
PARENT_PID=0
if [ -z $SENSOR_TOTAL ]; then
SENSOR_TOTAL=0
fi
if [ -z $LOG_OUTPUT_DRV_FILE ]; then
LOG_OUTPUT_DRV_FILE="/dev/null"
@@ -830,6 +1085,16 @@ if [ -z "$EVENT_DIR" ]; then
EVENT_DIR="$DIR_SCRIPT/events"
fi
if [ -z $WEATHER_SERVICE ]; then
WEATHER_SERVICE="drv:wunderground"
elif [ "$WEATHER_SERVICE" != "none" ]; then
WEATHER_SERVICE="drv:$WEATHER_SERVICE"
fi
PIGARDENSCHED="0"
if [[ -x "$PIGARDENSCHED_PATH" ]]; then
PIGARDENSCHED="1"
fi
# Elimina il file di lock se più vecchio di 11 secondi
if [ -f "$LOCK_FILE" ]; then
@@ -882,10 +1147,50 @@ case "$1" in
ev_status_all
;;
list_alias_sensor)
list_alias_sensor
;;
sensor_status)
sensor_status $2 $3
;;
sensor_status_all)
sensor_status_all
;;
sensor_status_set)
sensor_status_set $2 $3 $4
;;
json_sensor_status_all)
json_sensor_status_all
;;
json_status)
json_status $2 $3 $4 $5 $6
;;
mqtt_status)
mqtt_status $2
;;
last_rain_sensor_timestamp)
last_rain_sensor_timestamp
;;
last_rain_online_timestamp)
last_rain_online_timestamp
;;
reset_last_rain_sensor_timestamp)
reset_last_rain_sensor_timestamp
;;
reset_last_rain_online_timestamp)
reset_last_rain_online_timestamp
;;
check_rain_online)
check_rain_online
;;
@@ -917,7 +1222,7 @@ case "$1" in
nohup $0 start_socket_server_daemon > /dev/null 2>&1 &
echo "Daemon is started widh pid $!"
log_write "start socket server with pid $!"
log_write "socket_server" "info" "start socket server with pid $!"
;;
start_socket_server_daemon)
@@ -999,6 +1304,10 @@ case "$1" in
get_cron_close)
get_cron_close $2
;;
cmd_pigardensched)
cmd_pigardensched $2 $3 $4 $5
;;
reboot)
exec_reboot
@@ -1027,4 +1336,4 @@ esac
rm "$TMP_CRON_FILE" 2> /dev/null
rm "$TMP_CRON_FILE-2" 2> /dev/null
reset_messages &> /dev/null
#reset_messages &> /dev/null