def test_basic_cpython(caplog):
# Use very basic settings without networking.
import test.settings.basic as settings
with FakeFS():
with caplog.at_level(logging.DEBUG):
# Invoke bootloader.
bootloader = invoke_umal()
# Start datalogger with a single duty cycle on a fake filesystem.
from terkin.datalogger import TerkinDatalogger
datalogger = TerkinDatalogger(
settings, platform_info=bootloader.platform_info)
datalogger.setup()
datalogger.duty_task()
# Capture log output.
captured = caplog.text
# Proof it works by verifying log output.
assert "Starting Terkin datalogger" in captured, captured
assert "platform: linux2" in captured, captured
def test_basic_esp32(caplog):
# Use very basic settings without networking.
import test.settings.basic as settings
with FakeFS():
with caplog.at_level(logging.DEBUG):
# Invoke bootloader.
bootloader = invoke_umal()
# Start datalogger with a single duty cycle on a fake filesystem.
from terkin.datalogger import TerkinDatalogger
datalogger = TerkinDatalogger(
settings, platform_info=bootloader.platform_info)
datalogger.setup()
datalogger.duty_task()
# Capture log output.
captured = caplog.text
# Proof it works by verifying log output.
assert "Starting Terkin datalogger" in captured, captured
assert "platform: esp32" in captured, captured
assert "[WiFi] Interface not enabled in settings." in captured, captured
assert "[LoRa] Interface not enabled in settings." in captured, captured
assert "[GPRS] Interface not enabled in settings." in captured, captured
assert "Reading 0 sensor ports" in captured, captured
assert "Sensor data: {}" in captured, captured
assert "Telemetry status: SUCCESS (0/0)" in captured, captured
def test_wifi_esp32(monkeypatch, caplog):
# Define platform and start bootloader.
monkeypatch.setattr(sys, 'platform', 'esp32')
bootloader = invoke_umal()
# Use very basic settings without networking.
import test.settings.wifi as settings
# Start datalogger with a single duty cycle on a fake filesystem.
from terkin.datalogger import TerkinDatalogger
with FakeFS():
with caplog.at_level(logging.DEBUG):
datalogger = TerkinDatalogger(settings, platform_info=bootloader.platform_info)
datalogger.setup()
datalogger.duty_task()
# Capture log output.
captured = caplog.text
# Proof it works by verifying log output.
assert "Starting Terkin datalogger" in captured, captured
assert "platform: esp32" in captured, captured
assert "WiFi STA: Preparing connection to network \"FooBarWiFi\"" in captured, captured
assert "WiFi STA: Connected to \"FooBarWiFi\"" in captured, captured
assert "Network stack ready" in captured, captured
assert "[LoRa] Interface not enabled in settings" in captured, captured
assert "[GPRS] Interface not enabled in settings" in captured, captured
assert "Reading 0 sensor ports" in captured, captured
assert "Sensor data: {}" in captured, captured
assert "Telemetry status: SUCCESS (0/0)" in captured, captured
def test_wifi_cpython(monkeypatch, caplog):
# Define platform and start bootloader.
monkeypatch.setattr(sys, 'platform', 'linux2')
bootloader = invoke_umal()
# Use very basic settings without networking.
import test.settings.wifi as settings
# Start datalogger with a single duty cycle on a fake filesystem.
from terkin.datalogger import TerkinDatalogger
with FakeFS():
with caplog.at_level(logging.DEBUG):
datalogger = TerkinDatalogger(settings, platform_info=bootloader.platform_info)
datalogger.setup()
datalogger.duty_task()
# Capture log output.
captured = caplog.text
# Proof it works by verifying log output.
assert "Starting Terkin datalogger" in captured, captured
assert "platform: linux2" in captured, captured
assert "WiFi STA: Preparing connection to network \"FooBarWiFi\"" in captured, captured
assert "WiFi STA: Connected to \"FooBarWiFi\"" in captured, captured
assert "Network stack ready" in captured, captured
def test_uplink_wifi_mqtt(mosquitto, caplog, capmqtt):
# Acquire settings with MQTT telemetry.
import test.settings.telemetry_mqtt as settings
# Use a fake filesystem.
with FakeFS():
with caplog.at_level(logging.DEBUG):
# Invoke bootloader.
bootloader = invoke_umal()
# Invoke datalogger with a single duty cycle.
from terkin.datalogger import TerkinDatalogger
datalogger = TerkinDatalogger(
settings, platform_info=bootloader.platform_info)
datalogger.setup()
datalogger.duty_task()
# Capture log output.
captured = caplog.text
# Proof it works by verifying log output.
assert "Starting Terkin datalogger" in captured, captured
assert "platform: esp32" in captured, captured
assert "WiFi STA: Preparing connection to network \"FooBarWiFi\"" in captured, captured
assert "WiFi STA: Connected to \"FooBarWiFi\"" in captured, captured
assert "Network stack ready" in captured, captured
assert "Reading 4 sensor ports" in captured, captured
#assert "Sensor data: {}" in captured, captured
assert "MQTT topic: mqttkit-1/testdrive/area-42/node-01/data.json" in captured, captured
assert 'MQTT payload: {"system.memfree": 1000000, "system.temperature": 44.7053182608696' in captured, captured
assert "Telemetry status: SUCCESS (1/1)" in captured, captured
data_reference = {
"system.memfree": 1000000,
"system.temperature": 44.7053182608696,
"system.wifi.rssi": -85.3,
}
# Wait some time for message to arrive.
time.sleep(0.2)
message_1 = capmqtt.buffer()[0]
data_1 = json.loads(message_1)
del data_1['system.time']
del data_1['system.uptime']
del data_1['system.runtime']
assert data_1 == data_reference, capmqtt.buffer()
