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authorKaufman Home Automation <[email protected]>2022-05-17 22:47:22 -0700
committerGitHub <[email protected]>2022-05-17 22:47:22 -0700
commit256d125f215138b94415bd50a89dc87164e7e55f (patch)
tree372da96a919092d786068bd763685a7330d75eb8
parentd145a0c74fb40aa6577911875da114c885abd555 (diff)
downloadPLF10-256d125f215138b94415bd50a89dc87164e7e55f.tar.gz
PLF10-256d125f215138b94415bd50a89dc87164e7e55f.zip
v1.96
-rw-r--r--kauf-plug-lite.yaml345
1 files changed, 161 insertions, 184 deletions
diff --git a/kauf-plug-lite.yaml b/kauf-plug-lite.yaml
index 037faa9..b66762e 100644
--- a/kauf-plug-lite.yaml
+++ b/kauf-plug-lite.yaml
@@ -6,24 +6,23 @@ substitutions:
# in your local yaml file by redefining them.
#
# packages:
- # kauf.plf10: github://bkaufx/PLF10/kauf-plug-lite.yaml
+ # kauf.plf10: github://KaufHA/PLF10/kauf-plug.yaml
#
name: kauf-plug # **** CHANGE DEVICE NAME TO SOMETHING UNIQUE PER DEVICE. RENAME YAML FILE TO SAME NAME. ****
# **** USE DASHES (-) INSTEAD OF SPACES OR UNDERSCORE (_). USE ONLY LOWER CASE LETTERS. ****
- friendly_name: Kauf Plug # **** CHANGE FRIENDLY NAME TO SOMETHING UNIQUE PER DEVICE ****
+ friendly_name: Kauf Plug # **** CHANGE FRIENDLY NAME TO SOMETHING UNIQUE PER DEVICE ****
# https://esphome.io/components/esphome.html#esphome-creators-project
project_name: Kauf.PLF10
- project_ver_num: "1.95"
- project_ver_let: l
+ project_ver_num: "1.96"
+ project_ver_let: y
# https://esphome.io/components/switch/gpio.html?highlight=restore_mode
sub_restore_mode: RESTORE_DEFAULT_OFF # overwrite to change boot up behavior of relay
disable_entities: "true" # set to "false" to have all entities show up in Home Assistant automatically
-
# substitutions for button actions. on_press and on_release implement a timer scheme with configurable delay.
# on_hold_5s re-enables the AP and captive portal for the precompiled update binary.
# any length of hold can be implemented with just on_press and on_release using the following directions. This
@@ -33,17 +32,16 @@ substitutions:
# * place actions in the on_press script after the delay to perform them while still holding the button
# * place actions in the on_release script, with the condition that the on_press script is not running, to
# perform them on release of the button.
- sub_on_press: script_start_timer # executes right when button is initially pressed
- sub_on_release: script_stop_timer # executes right when button is released
+ sub_on_press: script_do_nothing # executes right when button is initially pressed
+ sub_on_release: script_do_nothing # executes right when button is released
sub_on_hold_5s: script_do_nothing # executes right when button has been held for 5s, while button is still being held
- sub_on_release_quick: script_do_nothing # executes when button is released after being held under 750ms
- sub_on_release_short: script_do_nothing # executes when button is released after being held between 750ms and 5s
- sub_on_release_long: script_do_nothing # executes when button is released after being held between 5s and 60s
# an extra script that, if running, will stop the relay from toggling on button release.
# used to not toggle when WiFi AP is re-enabled on update bin file.
- sub_toggle_check: script_start_timer
+ sub_toggle_check: script_do_nothing
+ # made this a substitution so that the update bin file and yaml compiled versions can have different defaults
+ default_button_config: "Toggle on Press"
# substitutions for power monitoring calibration. Allows end users to change calibration in their yaml and still
# incorporate this file as a package to get all the updates we release.
@@ -74,6 +72,15 @@ substitutions:
esp8266:
board: esp01_1m
restore_from_flash: true
+ early_pin_init: false
+
+
+# https://esphome.io/guides/automations.html#global-variables
+globals:
+ - id: global_press_time
+ type: int
+ restore_value: no
+ initial_value: '0'
# https://esphome.io/components/esphome.html#adjusting-flash-writes
@@ -92,36 +99,9 @@ esphome:
on_boot:
priority: 700
then:
-
- # priority 700 ensures power monitoring mode variables are changed
- # in this script before HLW component is setup
- # hlw_main will already have the YAML configured values by default, so
- # no need to handle that here.
- - lambda: |-
-
- if ( id(select_monitor_mode).state == "10s P / 40s V,I") {
- id(hlw_main)->set_update_interval(10000);
- id(hlw_main)->set_change_mode_every(1); }
-
- else if ( id(select_monitor_mode).state == "10s P,I Only" ) {
- id(hlw_main)->set_update_interval(10000);
- id(hlw_main)->set_change_mode_every(4294967295);
- id(hlw_main)->set_initial_mode(hlw8012::HLW8012_INITIAL_MODE_CURRENT); }
-
- else if ( id(select_monitor_mode).state == "10s P,V Only" ) {
- id(hlw_main)->set_update_interval(10000);
- id(hlw_main)->set_change_mode_every(4294967295);
- id(hlw_main)->set_initial_mode(hlw8012::HLW8012_INITIAL_MODE_VOLTAGE); }
-
- else if ( id(select_monitor_mode).state == " 2s P,I Only" ) {
- id(hlw_main)->set_update_interval(2000);
- id(hlw_main)->set_change_mode_every(4294967295);
- id(hlw_main)->set_initial_mode(hlw8012::HLW8012_INITIAL_MODE_CURRENT); }
-
- else if ( id(select_monitor_mode).state == " 2s P,V Only" ) {
- id(hlw_main)->set_update_interval(2000);
- id(hlw_main)->set_change_mode_every(4294967295);
- id(hlw_main)->set_initial_mode(hlw8012::HLW8012_INITIAL_MODE_VOLTAGE); }
+ # implementing on_boot function as a script so that any other on_boot automations in other files
+ # will execute in parallel and not be blocked by this one.
+ - script.execute: on_boot_main
# https://esphome.io/components/wifi.html
@@ -173,26 +153,30 @@ binary_sensor:
input: true
pullup: true
inverted: true
-
on_press:
then:
+ - lambda: |-
+ // store time of press and clear duration sensor
+ id(global_press_time) = millis();
+ id(sensor_press_duration).publish_state(0);
+
+ // toggle if configured for toggle on press
+ if (id(select_button).state == "Toggle on Press") {
+ id(relay).toggle(); }
- script.execute: $sub_on_press
+ - script.execute: script_5s_timer
on_release:
then:
+ - lambda: |-
+ // set duration sensor
+ id(sensor_press_duration).publish_state(millis() - id(global_press_time) + id(number_debounce).state);
+
+ // toggle if configured on release and toggle check script is not running.
+ if ( (id(select_button).state == "Toggle on Release") && !id($sub_toggle_check).is_running() ) {
+ id(relay).toggle();
+ }
- script.execute: $sub_on_release
- on_click:
- - min_length: 20ms
- max_length: 750ms
- then:
- - script.execute: $sub_on_release_quick
- - min_length: 750ms
- max_length: 5s
- then:
- - script.execute: $sub_on_release_short
- - min_length: 5s
- max_length: 60s
- then:
- - script.execute: $sub_on_release_long
+ - script.stop: script_5s_timer
# indicates whether plugged-in device is running based on configurable threshold.
# https://esphome.io/components/binary_sensor/template.html
@@ -211,31 +195,25 @@ script:
auto call = id(blue_led).make_call();
- // blue power status
+ // if blue led follows power status
if ( (id(select_bled).state == "Power Status") || (id(select_bled).state == "Error and Power") ) {
call.set_state(id(relay).state);
}
- // blue invert power status
+ // if blue led follows inverse of power status
else if ( (id(select_bled).state == "Invert Power Status") || (id(select_bled).state == "Error and Invert Power") ) {
call.set_state(!id(relay).state);
}
+ // if blue led is set to not change on power status (error only or disabled), performing an empty call does nothing.
call.perform();
-
+ // same as blue but for red led
call = id(red_led).make_call();
-
- // red power status
if ( (id(select_rled).state == "Power Status") || (id(select_rled).state == "Error and Power") ) {
- call.set_state(id(relay).state);
- }
-
- // red invert power status
+ call.set_state(id(relay).state); }
else if ( (id(select_rled).state == "Invert Power Status") || (id(select_rled).state == "Error and Invert Power") ) {
- call.set_state(!id(relay).state);
- }
-
+ call.set_state(!id(relay).state); }
call.perform();
- id: blink_status_led
@@ -294,84 +272,80 @@ script:
else:
- script.execute: script_set_power_leds # done with status LED, restore light power status
-
- ############################################################################
- # scripts for different things the button can do: #
- # * start timer (on press) #
- # * stop timer (on release) #
- # * nothing #
- ############################################################################
- - id: script_start_timer
- then:
-
- # store press time in ms
- - lambda: id(global_press_time) = millis();
-
- - script.execute: script_5s_timer
-
- # variable delay before toggling plug
- - delay: !lambda |-
- if ( id(select_button).state == "Toggle if Pressed For 20ms" )
- return 20;
- else if ( id(select_button).state == "Toggle if Released After 20ms" )
- return 20;
- else if ( id(select_button).state == "Toggle if Pressed For 100ms" )
- return 100;
- else if ( id(select_button).state == "Toggle if Released After 100ms" )
- return 100;
- else if ( id(select_button).state == "Toggle if Pressed For 250ms" )
- return 250;
- else if ( id(select_button).state == "Toggle if Released After 250ms" )
- return 250;
- else
- return 1000;
-
- # toggle immediately after delay if a "pressed" option is selected
+ - id: script_new_debounce
+ mode: restart # only reboot plug once number is static for 10s. changing value again restarts timer.
+ then: # only do it if wifi is connected, keeps initial loading of value on boot from causing restart.
- if:
condition:
- lambda: |-
- std::size_t found = id(select_button).state.find("Press");
- return (found != std::string::npos);
- then:
- - switch.toggle: relay
-
- - id: script_stop_timer
- then:
-
- # set duration sensor
- - lambda: id(sensor_press_duration).publish_state(millis() - id(global_press_time));
-
- - if:
- condition: # potentially toggle if a "released" option is selected
- lambda: |-
- std::size_t found = id(select_button).state.find("Release");
- return (found != std::string::npos);
+ - wifi.connected
then:
-
- - if:
- condition:
- or: # do nothing if timer is still running or toggle check script is running.
- - script.is_running: script_start_timer
- - script.is_running: $sub_toggle_check
- then:
- - script.execute: script_do_nothing
- else: # otherwise toggle relay
- - switch.toggle: relay
-
- # in all cases, stop timers on button release.
- - script.stop: script_5s_timer
- - script.stop: script_start_timer
-
+ - lambda: ESP_LOGD("kauf-plug.yaml","New debounce value detected, rebooting in 10 seconds to effect change.");
+ - delay: 10s
+ - button.press: restart_button
- id: script_5s_timer
then:
- - delay: 5s
+ - delay: !lambda return (5000-id(number_debounce).state);
- script.execute: $sub_on_hold_5s
- id: script_do_nothing
then:
- lambda: return;
+ - id: on_boot_main
+ then:
+
+ # this on_boot script has to execute after select and number entities are set up, so
+ # priority < 800. Adding a check here to make sure all needed entities are set up just
+ # in case another yaml file makes on_boot priority higher than 800 the following code
+ # will still work right. If on_boot priority becomes <= 600, the code for setting up
+ # power monitoring mode won't work because HLW will already be set up before values are
+ # changed in this script.
+ - wait_until:
+ lambda: return (id(select_monitor_mode).has_state() );
+
+ - lambda: |-
+
+ //////////////////////////////////////////////////////////////////////
+ // implement power monitoring mode per select entity
+
+ if ( id(select_monitor_mode).state == "10s P / 40s V,I") {
+ id(hlw_main).set_update_interval(10000);
+ id(hlw_main).set_change_mode_every(1); }
+
+ else if ( id(select_monitor_mode).state == "10s P,I Only" ) {
+ id(hlw_main).set_update_interval(10000);
+ id(hlw_main).set_change_mode_every(4294967295);
+ id(hlw_main).set_initial_mode(hlw8012::HLW8012_INITIAL_MODE_CURRENT); }
+
+ else if ( id(select_monitor_mode).state == "10s P,V Only" ) {
+ id(hlw_main).set_update_interval(10000);
+ id(hlw_main).set_change_mode_every(4294967295);
+ id(hlw_main).set_initial_mode(hlw8012::HLW8012_INITIAL_MODE_VOLTAGE); }
+
+ else if ( id(select_monitor_mode).state == " 2s P,I Only" ) {
+ id(hlw_main).set_update_interval(2000);
+ id(hlw_main).set_change_mode_every(4294967295);
+ id(hlw_main).set_initial_mode(hlw8012::HLW8012_INITIAL_MODE_CURRENT); }
+
+ else if ( id(select_monitor_mode).state == " 2s P,V Only" ) {
+ id(hlw_main).set_update_interval(2000);
+ id(hlw_main).set_change_mode_every(4294967295);
+ id(hlw_main).set_initial_mode(hlw8012::HLW8012_INITIAL_MODE_VOLTAGE); }
+
+ //////////////////////////////////////////////////////////////////////
+ // add a delayed_on filter to the button binary_sensor with time argument from number_debounce.
+ // this is placed after settings recovery so that it will take into account recovered setting
+ // on first boot. In any case, needs to be after priority 800 so that number_debounce is set up.
+
+ binary_sensor::DelayedOnFilter *button_delayedonfilter;
+ button_delayedonfilter = new binary_sensor::DelayedOnFilter(id(number_debounce).state);
+ button_delayedonfilter->set_component_source("binary_sensor");
+ App.register_component(button_delayedonfilter);
+ id(button_in).add_filters({button_delayedonfilter});
+
+
+
# pwm outputs for LEDs so they can be dimmed
# https://esphome.io/components/output/esp8266_pwm.html
@@ -388,6 +362,7 @@ output:
inverted: true
+# light entities for blue and red LEDs
# https://esphome.io/components/light/index.html
# https://esphome.io/components/light/monochromatic.html
light:
@@ -427,13 +402,11 @@ switch:
pin: GPIO4
entity_category: ''
restore_mode: $sub_restore_mode
-
on_turn_on:
- script.execute: script_set_power_leds
on_turn_off:
- script.execute: script_set_power_leds
-
# https://esphome.io/components/switch/template.html
- platform: template
id: switch_no_hass
@@ -445,10 +418,10 @@ switch:
icon: mdi:toggle-switch-off-outline
on_turn_on:
- lambda: |-
- id(kauf_api)->set_reboot_timeout(0); // 0 disables auto rebooting and also new status led blinking. doesn't stop current status led blinking
- id(kauf_api)->status_clear_warning(); // stops current status led blinking, timeout 0 keeps it from restarting
+ id(kauf_api).set_reboot_timeout(0); // 0 disables auto rebooting and also new status led blinking. doesn't stop current status led blinking
+ id(kauf_api).status_clear_warning(); // stops current status led blinking, timeout 0 keeps it from restarting
on_turn_off:
- - lambda: id(kauf_api)->set_reboot_timeout(900000);
+ - lambda: id(kauf_api).set_reboot_timeout(900000);
# https://esphome.io/components/button/index.html
@@ -495,18 +468,8 @@ sensor: # Power monitoring sensors output to Home Assistant
- $power_cal_val1_in -> $power_cal_val1_out
- $power_cal_val2_in -> $power_cal_val2_out
- lambda: return x * id(scale_power).state/100.0f;
- on_value: # set or clear in_use template binary sensor depending on
- - if: # whether power usage is over threshold
- condition:
- lambda: return (x >= id(threshold).state);
- then:
- - binary_sensor.template.publish:
- id: in_use
- state: ON
- else:
- - binary_sensor.template.publish:
- id: in_use
- state: OFF
+ on_value: # set or clear in_use template binary sensor depending on whether power usage is over threshold
+ - lambda: id(in_use).publish_state(x >= id(threshold).state);
current:
name: ${friendly_name} Current
@@ -528,7 +491,6 @@ sensor: # Power monitoring sensors output to Home Assistant
- $voltage_cal_val2_in -> $voltage_cal_val2_out
- lambda: return x * id(scale_voltage).state/100.0f;
-
# Reports the total Power so-far each day, resets at midnight
# https://esphome.io/components/sensor/total_daily_energy.html
- platform: total_daily_energy
@@ -546,6 +508,7 @@ sensor: # Power monitoring sensors output to Home Assistant
entity_category: diagnostic
disabled_by_default: $disable_entities
+ # https://esphome.io/components/sensor/template.html
- platform: template
name: $friendly_name Button Press Duration
id: sensor_press_duration
@@ -571,18 +534,8 @@ number: # used as a threshold for whether the plugged-in devices is running
unit_of_measurement: Watt(s)
mode: box
disabled_by_default: $disable_entities
- on_value: # set or clear in_use template binary sensor depending on
- - if: # whether power usage is above threshold
- condition:
- lambda: return (id(wattage).state >= x);
- then:
- - binary_sensor.template.publish:
- id: in_use
- state: ON
- else:
- - binary_sensor.template.publish:
- id: in_use
- state: OFF
+ on_value: # set or clear in_use template binary sensor depending on whether power usage is above threshold
+ - lambda: id(in_use).publish_state(id(wattage).state >= x);
- platform: template
name: ${friendly_name} Scale Power
@@ -597,8 +550,8 @@ number: # used as a threshold for whether the plugged-in devices is running
unit_of_measurement: "%"
mode: box
disabled_by_default: $disable_entities
- on_value:
- - lambda: id(wattage)->publish_state(id(wattage)->get_raw_state());
+ on_value: # republish value. Sensor automation applies new scaling factor.
+ - lambda: id(wattage).publish_state(id(wattage).get_raw_state());
- platform: template
name: ${friendly_name} Scale Current
@@ -613,8 +566,8 @@ number: # used as a threshold for whether the plugged-in devices is running
unit_of_measurement: "%"
mode: box
disabled_by_default: $disable_entities
- on_value:
- - lambda: id(current)->publish_state(id(current)->get_raw_state());
+ on_value: # republish value. Sensor automation applies new scaling factor.
+ - lambda: id(current).publish_state(id(current).get_raw_state());
- platform: template
name: ${friendly_name} Scale Voltage
@@ -629,30 +582,38 @@ number: # used as a threshold for whether the plugged-in devices is running
unit_of_measurement: "%"
mode: box
disabled_by_default: $disable_entities
- on_value:
- - lambda: id(voltage)->publish_state(id(voltage)->get_raw_state());
-
+ on_value: # republish value. Sensor automation applies new scaling factor.
+ - lambda: id(voltage).publish_state(id(voltage).get_raw_state());
+
+ - platform: template
+ name: ${friendly_name} Debounce Time
+ min_value: 50
+ max_value: 2000
+ step: 1
+ initial_value: 75
+ id: number_debounce
+ entity_category: config
+ optimistic: true
+ restore_value: true
+ unit_of_measurement: "ms"
+ mode: box
+ disabled_by_default: $disable_entities
+ on_value: # currently, have to reboot plug to apply new delayed_on time
+ - script.execute: script_new_debounce
# https://esphome.io/components/select/index.html
# https://esphome.io/components/select/template.html
select:
- # option to disable button
- platform: template
name: $friendly_name Button Config
id: select_button
optimistic: true
options:
- - Toggle if Pressed For 20ms
- - Disable Button
- - Toggle if Pressed For 100ms
- - Toggle if Pressed For 250ms
- - Toggle if Pressed For 1s
- - Toggle if Released After 20ms
- - Toggle if Released After 100ms
- - Toggle if Released After 250ms
- - Toggle if Released After 1s
- initial_option: Toggle if Pressed For 100ms
+ - Toggle on Press
+ - Toggle on Release
+ - Don't Toggle
+ initial_option: $default_button_config
restore_value: true
icon: mdi:circle-double
entity_category: config
@@ -703,7 +664,6 @@ select:
- lambda: return ( x == "Error Status" );
then:
- light.turn_off: red_led
-
- script.execute: script_set_power_leds
# change mode of power monitoring
@@ -723,7 +683,6 @@ select:
icon: mdi:wrench-clock
entity_category: config
disabled_by_default: $disable_entities
-
set_action:
- delay: 1s
- lambda: global_preferences->sync();
@@ -741,10 +700,10 @@ text_sensor:
# emulate status_led
+# https://esphome.io/guides/automations.html#interval-component
interval:
- interval: 5s
then:
-
- if:
condition:
- lambda: return ( ( (App.get_app_state() & STATUS_LED_ERROR) != 0u) || ((App.get_app_state() & STATUS_LED_WARNING) != 0u) );
@@ -755,3 +714,21 @@ interval:
- script.is_running: blink_status_led
then:
- script.execute: blink_status_led
+
+
+# Current reserved flash memory:
+# 00-01: Power Monitoring Mode
+# 02-03: Relay output
+# 04-05: Use Threshold
+# 06-07: Total Daily Energy
+# 08-33: Wi-Fi Credentials
+# 34-35: Button Config select entity
+# 36-37: Blue LED select entity
+# 38-39: Red LED select entity
+# 40-41: Debounce number entity
+# 42-43: No HASS switch
+# 44-55: Blue LED light entity
+# 56-57: Scale Power
+# 58-59: Scale Current
+# 60-61: Scale Voltage
+# 62-73: Red LED light entity