Good morining again,
pls note that I do not have anymore messsages inside the EVOK log, pls find my modified config file below. But I still have the problem that I do not receive any JSON strings from my DS2438 sensors via above mention Python program in order to receive the infos via WS.
I could get the JSON string only via wget but not via python ws - Here the string from my new CO2 Sensor:
{"vad": "1.23", "vdd": "5", "circuit": "2656DC84000003B7", "time": 1515692607.33644, "temp": "4.82031", "interval": 15, "typ": "DS2438", "lost": false, "dev": "temp", "humidity": 39.25448718301667}
Here my string from the new temp & humidity sensor:
{"vad": "1.23", "vdd": "5", "circuit": "2656DC84000003B7", "time": 1515692607.33644, "temp": "4.82031", "interval": 15, "typ": "DS2438", "lost": false, "dev": "temp", "humidity": 39.25448718301667}
#!!! Do not use '#' for comments !!!
[MAIN]
config_version = 2.4
use_experimental_api = False ; Currently in Alpha - known issues
regenerate_api_docs = False ; Active only with the experimental API setting
log_level = ERROR ; One of INFO, DEBUG, WARNING, ERROR, CRITICAL
log_file = /var/log/evok.log ; Log file to use; will be cleared on boot
port = 8080 ; !!! Internal API port - only change if you are certain you know what you are doing; FOR OUR WEB INTERFACE THE PORT SHOULD BE CHANGED IN "/etc/evok-nginx.conf" INSTEAD !!!
;modbus_port = 0
;modbus_address = *
webhook_enabled = False ; Enables webhook notification - see e.g. https://sendgrid.com/blog/whats-webhook/
webhook_address = http://127.0.0.1:80 ; Put your server endpoint address here (e.g. http://123.123.123.123:/wh )
webhook_device_mask = ["input","wd"] ; List of device types to notify on (written as a JSON list) - adding AI will generate a large amount of messages!
webhook_complex_events = False ; EVOK will send POST requests with the same data as WebSocket, rather than an empty GET request
wifi_control_enabled = False ; !!! REQUIRES THE UNIPIAP WIFI CONTROLLER TO BE INSTALLED !!! Will allow evok to control the internal Neuron wifi
soap_server_enabled = False ; Enables the simple SOAP server; use only if you need the functionality
soap_server_port = 8081 ; !!! IF SOAP SERVER IS ENABLED, THIS PORT NEEDS TO BE UNIQUE (i.e. different from the port setting above) !!!
[OWBUS_1]
owbus = --i2c=/dev/i2c-1:ALL ; scanned bus (--i2c=/dev/i2c-1:ALL or localhost:2122 or 'u' for USB dongle)
interval = 3 ; [s] default sensor reading
scan_interval = 300 ; [s] how often is made searching
;[SENSOR_1] ; onewire thermometer
;bus = 1 ; link to OWBUS_X
;address = 28527B930500001F
;type = DS18B20
;interval = 1
[I2CBUS_1]
busid = 1 ;[integer] id of bus /dev/i2c-X
;[EPROM_1] ;EPROM device will not be used anymore, eprom should be handled by kernel module
;i2cbus = 1
;address = 0x50
;size = 256
[MCP_1]
i2cbus = 1 ; link to I2CBUS_X
address = 0x20 ; i2c address
[RELAY_1]
mcp = 1 ; link to MCP_X
pin = 7
[RELAY_2]
mcp = 1 ; link to MCP_X
pin = 6
[RELAY_3]
mcp = 1
pin = 5
[RELAY_4]
mcp = 1
pin = 4
[RELAY_5]
mcp = 1
pin = 3
[RELAY_6]
mcp = 1
pin = 2
[RELAY_7]
mcp = 1
pin = 1
[RELAY_8]
mcp = 1
pin = 0
;[AICHIP_1]
;i2cbus =1
;address = 0x68
;[AI_1]
;chip=1
;channel=0
;bits=18
;gain=1
;;correction = 5.558737622
;;correction = 5.564920867
;corr_rom = 1
;corr_addr = 0xf0
;interval=2
;[AI_2]
;chip=1
;channel=1
;bits=18
;gain=1
;;correction = 5.558737622
;;correction = 5.564920867
;corr_rom = 1
;corr_addr = 0xf4
;interval=1
[GPIOBUS_1]
[AO_1]
gpiobus = 1
frequency = 100
[DI_1]
gpiobus = 1
pin=4
debounce = 0
;Enable counting on rising/falling edge or disable it
;By default(or parameter not present) this function is disabled
;Can be turned on on all on-board digital inputs (not inputs on 1Wire or other extensions)
;counter_mode = rising
;counter_mode = falling
;counter_mode = disabled
[DI_2]
gpiobus = 1
pin=17
debounce = 0
[DI_3]
gpiobus = 1
pin=27
debounce = 0
[DI_4]
gpiobus = 1
pin=23
debounce = 0
[DI_5]
gpiobus = 1
pin=22
debounce = 0
[DI_6]
gpiobus = 1
pin=24
debounce = 0
[DI_7]
gpiobus = 1
pin=11
debounce = 0
[DI_8]
gpiobus = 1
pin=7
debounce = 0
[DI_9]
gpiobus = 1
pin=8
debounce = 0
[DI_10]
gpiobus = 1
pin=9
debounce = 0
[DI_11]
gpiobus = 1
pin=25
debounce = 0
[DI_12]
gpiobus = 1
pin=10
debounce = 0
;[DI_13]
;gpiobus = 1
;pin=31
;debounce = 0
;[DI_14]
;gpiobus = 1
;pin=30
;debounce = 0
;
;Example of 8xRelay extension module addon (EMO-R8) on address 0x21
;
;[MCP_2]
;i2cbus = 1
;address = 0x21
;[RELAY_9]
;mcp = 2
;pin = 7
;[RELAY_10]
;mcp = 2
;pin = 6
;[RELAY_11]
;mcp = 2
;pin = 5
;[RELAY_12]
;mcp = 2
;pin = 4
;[RELAY_13]
;mcp = 2
;pin = 3
;[RELAY_14]
;mcp = 2
;pin = 2
;[RELAY_15]
;mcp = 2
;pin = 1
;[RELAY_16]
;mcp = 2
;pin = 0
;
;Example of Analog Output extension module EMO-Ao4/12
;
;[PCA9685_1]
;i2cbus = 1
;address = 0x40
;frequency = 400
;
;[AO_2]
;pca = 1
;channel = 0
;
;[AO_3]
;pca = 1
;channel = 1
;
;[AO_4]
;pca = 1
;channel = 2
;
;[AO_5]
;pca = 1
;channel = 3
;Example of 1W-4R/4DI extension module, 1W-8R is almost the same just replace inputs with relays
;
; - First map a new 1Wire sensor with appropriate address, type, and interval
; - Can use both SENSOR or 1WDEVICE syntax
; - Reading interval is crucial to achieve expected performance, default interval is 15s
;
[1WDEVICE_2]
bus = 1
address = 3AFF60340000009E
type = DS2413
interval = 1
[1WRELAY_10]
sensor = 2
pin = 0
[1WINPUT_20]
sensor = 2
pin = 1
[1WDEVICE_3]
bus = 1
address = 3A4D6B3400000087
type = DS2413
interval = 1
[1WRELAY_11]
sensor = 3
pin = 0
[1WINPUT_21]
sensor = 3
pin = 1
[1WDEVICE_4]
bus = 1
address = 3AC3323400000018
type = DS2413
interval = 1
[1WRELAY_12]
sensor = 4
pin = 0
[1WINPUT_22]
sensor = 4
pin = 1
[1WDEVICE_5]
bus = 1
address = 2656DC84000003B7
type = DS2438
interval = 1
[1WINPUT_23]
sensor = 5
[1WDEVICE_6]
bus = 1
address = 265ADC84000003CA
type = DS2438
interval = 1
[1WINPUT_23]
sensor = 6
;[1WRELAY_11]
;sensor = 2
;pin = 1
;
;[1WRELAY_12]
;sensor = 2
;pin = 2
;
;[1WRELAY_13]
;sensor = 2
;pin = 3
;
;[1WINPUT_20]
;sensor = 2
;pin = 4
;
;[1WINPUT_21]
;sensor = 2
;pin = 5
;
;[1WINPUT_22]
;sensor = 2
;pin = 6
;
;[1WINPUT_23]
;sensor = 2
;pin = 7