feat(power): Initial deep sleep work.
* New ZMK_SLEEP Kconfig symbol to enable the functionality. * Switch to PORT events that allows wake from deep sleep. * Initial basic power management policy, with idle ms, and ignoring deep sleep if we detect a USB connection.
This commit is contained in:
Pete Johanson
parent
9be566603e
commit
a7496ab064
5 changed files with 121 additions and 29 deletions
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@ -23,6 +23,7 @@ zephyr_linker_sources(RODATA include/linker/zmk-events.ld)
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# Add your source file to the "app" target. This must come after
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# find_package(Zephyr) which defines the target.
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target_include_directories(app PRIVATE include)
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target_sources_ifdef(CONFIG_ZMK_SLEEP app PRIVATE src/power.c)
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target_sources(app PRIVATE src/kscan.c)
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target_sources(app PRIVATE src/matrix_transform.c)
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target_sources(app PRIVATE src/hid.c)
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20
app/Kconfig
20
app/Kconfig
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@ -76,6 +76,25 @@ endif
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endmenu
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menuconfig ZMK_SLEEP
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bool "Enable deep sleep support"
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imply USB
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if ZMK_SLEEP
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config SYS_POWER_DEEP_SLEEP_STATES
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default y
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choice SYS_PM_POLICY
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default SYS_PM_POLICY_APP
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endchoice
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config ZMK_IDLE_SLEEP_TIMEOUT
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int "Milliseconds to wait to sleep when going idle"
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default 900000
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endif
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config ZMK_DISPLAY
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bool "ZMK display support"
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default n
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@ -112,7 +131,6 @@ config ZMK_SPLIT_BLE_ROLE_CENTRAL
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config ZMK_SPLIT_BLE_ROLE_PERIPHERAL
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bool "Peripheral"
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select BT_KEYS_OVERWRITE_OLDEST
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if ZMK_SPLIT_BLE_ROLE_PERIPHERAL
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@ -73,7 +73,7 @@ static int kscan_gpio_config_interrupts(struct device **devices,
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}; \
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struct kscan_gpio_data_##n { \
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kscan_callback_t callback; \
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COND_CODE_0(CONFIG_ZMK_KSCAN_MATRIX_POLLING, (), (struct k_timer poll_timer;)) \
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COND_CODE_1(CONFIG_ZMK_KSCAN_MATRIX_POLLING, (struct k_timer poll_timer;), ()) \
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struct COND_CODE_0(DT_INST_PROP(n, debounce_period), (k_work), (k_delayed_work)) work; \
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bool matrix_state[INST_MATRIX_ROWS(n)][INST_MATRIX_COLS(n)]; \
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struct device *rows[INST_MATRIX_ROWS(n)]; \
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@ -101,7 +101,7 @@ static int kscan_gpio_config_interrupts(struct device **devices,
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return ( \
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COND_CODE_0(DT_ENUM_IDX(DT_DRV_INST(n), diode_direction), (cfg->rows), (cfg->cols))); \
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} \
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COND_CODE_0(CONFIG_ZMK_KSCAN_MATRIX_POLLING, \
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COND_CODE_1(CONFIG_ZMK_KSCAN_MATRIX_POLLING, (), \
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( \
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static int kscan_gpio_enable_interrupts_##n(struct device *dev) { \
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return kscan_gpio_config_interrupts( \
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@ -111,8 +111,7 @@ static int kscan_gpio_config_interrupts(struct device **devices,
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return kscan_gpio_config_interrupts(kscan_gpio_input_devices_##n(dev), \
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kscan_gpio_input_configs_##n(dev), \
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INST_INPUT_LEN(n), GPIO_INT_DISABLE); \
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}), \
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()) \
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})) \
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static void kscan_gpio_set_output_state_##n(struct device *dev, int value) { \
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int err; \
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for (int i = 0; i < INST_OUTPUT_LEN(n); i++) { \
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@ -173,7 +172,8 @@ static int kscan_gpio_config_interrupts(struct device **devices,
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k_delayed_work_submit(&data->work, K_MSEC(5)); \
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})) \
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} else { \
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kscan_gpio_enable_interrupts_##n(dev); \
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COND_CODE_1(CONFIG_ZMK_KSCAN_MATRIX_POLLING, (), \
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(kscan_gpio_enable_interrupts_##n(dev);)) \
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} \
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return 0; \
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} \
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@ -181,17 +181,20 @@ static int kscan_gpio_config_interrupts(struct device **devices,
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struct kscan_gpio_data_##n *data = CONTAINER_OF(work, struct kscan_gpio_data_##n, work); \
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kscan_gpio_read_##n(data->dev); \
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} \
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static void kscan_gpio_irq_callback_handler_##n(struct device *dev, struct gpio_callback *cb, \
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gpio_port_pins_t pin) { \
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struct kscan_gpio_irq_callback_##n *data = \
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CONTAINER_OF(cb, struct kscan_gpio_irq_callback_##n, callback); \
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kscan_gpio_disable_interrupts_##n(data->dev); \
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COND_CODE_0(DT_INST_PROP(n, debounce_period), ({ k_work_submit(data->work); }), ({ \
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k_delayed_work_cancel(data->work); \
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k_delayed_work_submit(data->work, \
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K_MSEC(DT_INST_PROP(n, debounce_period))); \
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})) \
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} \
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COND_CODE_1(CONFIG_ZMK_KSCAN_MATRIX_POLLING, (), \
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(static void kscan_gpio_irq_callback_handler_##n( \
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struct device *dev, struct gpio_callback *cb, gpio_port_pins_t pin) { \
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struct kscan_gpio_irq_callback_##n *data = \
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CONTAINER_OF(cb, struct kscan_gpio_irq_callback_##n, callback); \
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kscan_gpio_disable_interrupts_##n(data->dev); \
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COND_CODE_0(DT_INST_PROP(n, debounce_period), \
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({ k_work_submit(data->work); }), ({ \
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k_delayed_work_cancel(data->work); \
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k_delayed_work_submit( \
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data->work, K_MSEC(DT_INST_PROP(n, debounce_period))); \
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})) \
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})) \
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\
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static struct kscan_gpio_data_##n kscan_gpio_data_##n = { \
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.rows = {[INST_MATRIX_ROWS(n) - 1] = NULL}, .cols = {[INST_MATRIX_COLS(n) - 1] = NULL}}; \
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static int kscan_gpio_configure_##n(struct device *dev, kscan_callback_t callback) { \
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@ -204,24 +207,25 @@ static int kscan_gpio_config_interrupts(struct device **devices,
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return 0; \
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}; \
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static int kscan_gpio_enable_##n(struct device *dev) { \
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COND_CODE_0(CONFIG_ZMK_KSCAN_MATRIX_POLLING, \
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(int err = kscan_gpio_enable_interrupts_##n(dev); \
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if (err) { return err; } return kscan_gpio_read_##n(dev);), \
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COND_CODE_1(CONFIG_ZMK_KSCAN_MATRIX_POLLING, \
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(struct kscan_gpio_data_##n *data = dev->driver_data; \
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k_timer_start(&data->poll_timer, K_MSEC(10), K_MSEC(10)); return 0;)) \
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k_timer_start(&data->poll_timer, K_MSEC(10), K_MSEC(10)); return 0;), \
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(int err = kscan_gpio_enable_interrupts_##n(dev); \
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if (err) { return err; } return kscan_gpio_read_##n(dev);)) \
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}; \
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static int kscan_gpio_disable_##n(struct device *dev) { \
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COND_CODE_0(CONFIG_ZMK_KSCAN_MATRIX_POLLING, \
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(return kscan_gpio_disable_interrupts_##n(dev);), \
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COND_CODE_1(CONFIG_ZMK_KSCAN_MATRIX_POLLING, \
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(struct kscan_gpio_data_##n *data = dev->driver_data; \
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k_timer_stop(&data->poll_timer); return 0;)) \
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k_timer_stop(&data->poll_timer); return 0;), \
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(return kscan_gpio_disable_interrupts_##n(dev);)) \
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}; \
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COND_CODE_0(CONFIG_ZMK_KSCAN_MATRIX_POLLING, (), \
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COND_CODE_1(CONFIG_ZMK_KSCAN_MATRIX_POLLING, \
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(static void kscan_gpio_timer_handler(struct k_timer *timer) { \
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struct kscan_gpio_data_##n *data = \
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CONTAINER_OF(timer, struct kscan_gpio_data_##n, poll_timer); \
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k_work_submit(&data->work.work); \
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})) \
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}), \
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()) \
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static int kscan_gpio_init_##n(struct device *dev) { \
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struct kscan_gpio_data_##n *data = dev->driver_data; \
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int err; \
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@ -267,8 +271,8 @@ static int kscan_gpio_config_interrupts(struct device **devices,
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} \
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} \
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data->dev = dev; \
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COND_CODE_0(CONFIG_ZMK_KSCAN_MATRIX_POLLING, (), \
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(k_timer_init(&data->poll_timer, kscan_gpio_timer_handler, NULL);)) \
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COND_CODE_1(CONFIG_ZMK_KSCAN_MATRIX_POLLING, \
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(k_timer_init(&data->poll_timer, kscan_gpio_timer_handler, NULL);), ()) \
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(COND_CODE_0(DT_INST_PROP(n, debounce_period), (k_work_init), (k_delayed_work_init)))( \
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&data->work, kscan_gpio_work_handler_##n); \
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return 0; \
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69
app/src/power.c
Normal file
69
app/src/power.c
Normal file
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@ -0,0 +1,69 @@
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/*
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* Copyright (c) 2020 The ZMK Contributors
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*
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* SPDX-License-Identifier: MIT
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*/
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#include <zephyr.h>
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#include <kernel.h>
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#include <power/power.h>
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#include <logging/log.h>
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LOG_MODULE_DECLARE(zmk, CONFIG_ZMK_LOG_LEVEL);
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#include <zmk/usb.h>
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#include <zmk/event-manager.h>
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#include <zmk/events/position-state-changed.h>
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#include <zmk/events/sensor-event.h>
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static u32_t power_last_uptime;
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#define MAX_IDLE_MS CONFIG_ZMK_IDLE_SLEEP_TIMEOUT
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bool is_usb_power_present() {
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#ifdef CONFIG_USB
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enum usb_dc_status_code usb_status = zmk_usb_get_status();
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switch (usb_status) {
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case USB_DC_DISCONNECTED:
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case USB_DC_UNKNOWN:
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return false;
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default:
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return true;
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}
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#else
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return false;
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#endif /* CONFIG_USB */
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}
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enum power_states sys_pm_policy_next_state(s32_t ticks) {
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#ifdef CONFIG_SYS_POWER_DEEP_SLEEP_STATES
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#ifdef CONFIG_HAS_SYS_POWER_STATE_DEEP_SLEEP_1
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s32_t current = k_uptime_get();
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if (power_last_uptime > 0 && !is_usb_power_present() &&
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current - power_last_uptime > MAX_IDLE_MS) {
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return SYS_POWER_STATE_DEEP_SLEEP_1;
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}
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#endif /* CONFIG_HAS_SYS_POWER_STATE_DEEP_SLEEP_1 */
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#endif /* CONFIG_SYS_POWER_DEEP_SLEEP_STATES */
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return SYS_POWER_STATE_ACTIVE;
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}
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int power_event_listener(const struct zmk_event_header *eh) {
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power_last_uptime = k_uptime_get();
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return 0;
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}
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int power_init() {
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power_last_uptime = k_uptime_get();
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return 0;
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}
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ZMK_LISTENER(power, power_event_listener);
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ZMK_SUBSCRIPTION(power, position_state_changed);
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ZMK_SUBSCRIPTION(power, sensor_event);
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SYS_INIT(power_init, APPLICATION, CONFIG_APPLICATION_INIT_PRIORITY);
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