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koreader/plugins/autosuspend.koplugin/main.lua

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local Device = require("device")
-- If a device can power off or go into standby, it can also suspend ;).
if not Device:canSuspend() then
return { disabled = true, }
end
local Math = require("optmath")
local NetworkMgr = require("ui/network/manager")
local PluginShare = require("pluginshare")
local PowerD = Device:getPowerDevice()
local UIManager = require("ui/uimanager")
local WidgetContainer = require("ui/widget/container/widgetcontainer")
local datetime = require("datetime")
local logger = require("logger")
local time = require("ui/time")
local _ = require("gettext")
local T = require("ffi/util").template
local default_autoshutdown_timeout_seconds = 3*24*60*60 -- three days
local default_auto_suspend_timeout_seconds = 15*60 -- 15 minutes
local default_auto_standby_timeout_seconds = 4 -- 4 seconds; should be safe on Kobo/Sage
local default_kindle_t1_timeout_reset_seconds = 5*60 -- 5 minutes (i.e., half of the standard t1 timeout).
Clarify our OOP semantics across the codebase (#9586) Basically: * Use `extend` for class definitions * Use `new` for object instantiations That includes some minor code cleanups along the way: * Updated `Widget`'s docs to make the semantics clearer. * Removed `should_restrict_JIT` (it's been dead code since https://github.com/koreader/android-luajit-launcher/pull/283) * Minor refactoring of LuaSettings/LuaData/LuaDefaults/DocSettings to behave (mostly, they are instantiated via `open` instead of `new`) like everything else and handle inheritance properly (i.e., DocSettings is now a proper LuaSettings subclass). * Default to `WidgetContainer` instead of `InputContainer` for stuff that doesn't actually setup key/gesture events. * Ditto for explicit `*Listener` only classes, make sure they're based on `EventListener` instead of something uselessly fancier. * Unless absolutely necessary, do not store references in class objects, ever; only values. Instead, always store references in instances, to avoid both sneaky inheritance issues, and sneaky GC pinning of stale references. * ReaderUI: Fix one such issue with its `active_widgets` array, with critical implications, as it essentially pinned *all* of ReaderUI's modules, including their reference to the `Document` instance (i.e., that was a big-ass leak). * Terminal: Make sure the shell is killed on plugin teardown. * InputText: Fix Home/End/Del physical keys to behave sensibly. * InputContainer/WidgetContainer: If necessary, compute self.dimen at paintTo time (previously, only InputContainers did, which might have had something to do with random widgets unconcerned about input using it as a baseclass instead of WidgetContainer...). * OverlapGroup: Compute self.dimen at *init* time, because for some reason it needs to do that, but do it directly in OverlapGroup instead of going through a weird WidgetContainer method that it was the sole user of. * ReaderCropping: Under no circumstances should a Document instance member (here, self.bbox) risk being `nil`ed! * Kobo: Minor code cleanups.
2022-10-06 00:14:48 +00:00
local AutoSuspend = WidgetContainer:extend{
name = "autosuspend",
is_doc_only = false,
autoshutdown_timeout_seconds = default_autoshutdown_timeout_seconds,
auto_suspend_timeout_seconds = default_auto_suspend_timeout_seconds,
auto_standby_timeout_seconds = default_auto_standby_timeout_seconds,
last_action_time = 0,
is_standby_scheduled = nil,
task = nil,
kindle_task = nil,
standby_task = nil,
going_to_suspend = nil,
}
function AutoSuspend:_enabledStandby()
return Device:canStandby() and self.auto_standby_timeout_seconds > 0
end
function AutoSuspend:_enabled()
-- NOTE: Plugin is only enabled if Device:canSuspend(), so we can elide the check here
return self.auto_suspend_timeout_seconds > 0
end
function AutoSuspend:_enabledShutdown()
return Device:canPowerOff() and self.autoshutdown_timeout_seconds > 0
end
function AutoSuspend:_schedule(shutdown_only)
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
if not self:_enabled() and not self:_enabledShutdown() then
logger.dbg("AutoSuspend: suspend/shutdown timer is disabled")
return
end
local suspend_delay_seconds, shutdown_delay_seconds
local is_charging
-- On devices with an auxiliary battery, we only care about the auxiliary battery being charged...
if Device:hasAuxBattery() and PowerD:isAuxBatteryConnected() then
is_charging = PowerD:isAuxCharging() and not PowerD:isAuxCharged()
else
is_charging = PowerD:isCharging() and not PowerD:isCharged()
end
-- We *do* want to make sure we attempt to go into suspend/shutdown again while *fully* charged, though.
if PluginShare.pause_auto_suspend or is_charging then
suspend_delay_seconds = self.auto_suspend_timeout_seconds
shutdown_delay_seconds = self.autoshutdown_timeout_seconds
else
local now = UIManager:getElapsedTimeSinceBoot()
suspend_delay_seconds = self.auto_suspend_timeout_seconds - time.to_number(now - self.last_action_time)
shutdown_delay_seconds = self.autoshutdown_timeout_seconds - time.to_number(now - self.last_action_time)
end
-- Try to shutdown first, as we may have been woken up from suspend just for the sole purpose of doing that.
if self:_enabledShutdown() and shutdown_delay_seconds <= 0 then
logger.dbg("AutoSuspend: initiating shutdown")
UIManager:poweroff_action()
elseif self:_enabled() and suspend_delay_seconds <= 0 and not shutdown_only then
logger.dbg("AutoSuspend: will suspend the device")
UIManager:suspend()
else
if self:_enabled() and not shutdown_only then
logger.dbg("AutoSuspend: scheduling next suspend check in", suspend_delay_seconds)
UIManager:scheduleIn(suspend_delay_seconds, self.task)
end
if self:_enabledShutdown() then
logger.dbg("AutoSuspend: scheduling next shutdown check in", shutdown_delay_seconds)
UIManager:scheduleIn(shutdown_delay_seconds, self.task)
end
end
end
function AutoSuspend:_unschedule()
if self.task then
logger.dbg("AutoSuspend: unschedule suspend/shutdown timer")
UIManager:unschedule(self.task)
end
end
function AutoSuspend:_start()
if self:_enabled() or self:_enabledShutdown() then
logger.dbg("AutoSuspend: start suspend/shutdown timer at", time.format_time(self.last_action_time))
self:_schedule()
end
end
function AutoSuspend:_start_standby(sleep_in)
if self:_enabledStandby() then
logger.dbg("AutoSuspend: start standby timer at", time.format_time(self.last_action_time))
self:_schedule_standby(sleep_in)
end
end
-- Variant that only re-engages the shutdown timer for onUnexpectedWakeupLimit
function AutoSuspend:_restart()
if self:_enabledShutdown() then
logger.dbg("AutoSuspend: restart shutdown timer at", time.format_time(self.last_action_time))
self:_schedule(true)
end
end
if Device:isKindle() then
function AutoSuspend:_schedule_kindle()
-- NOTE: Would technically only need to be enabled if autosuspend timeout is larger than t1_timeout (10 minutes)...
if not self:_enabled() then
logger.dbg("AutoSuspend: t1 timeout timer is disabled")
return
end
-- NOTE: Unlike us, powerd doesn't care about charging, so we always use the delta since the last user input.
local now = UIManager:getElapsedTimeSinceBoot()
local kindle_t1_reset_seconds = default_kindle_t1_timeout_reset_seconds - time.to_number(now - self.last_action_time)
if self:_enabled() and kindle_t1_reset_seconds <= 0 then
logger.dbg("AutoSuspend: will reset the system's t1 timeout, re-scheduling check")
PowerD:resetT1Timeout()
-- Re-schedule ourselves, as, unlike suspend/shutdown/standby, we don't have a specific Event to handle that for us.
UIManager:scheduleIn(default_kindle_t1_timeout_reset_seconds, self.kindle_task)
else
if self:_enabled() then
logger.dbg("AutoSuspend: scheduling next t1 timeout check in", kindle_t1_reset_seconds)
UIManager:scheduleIn(kindle_t1_reset_seconds, self.kindle_task)
end
end
end
function AutoSuspend:_unschedule_kindle()
if self.kindle_task then
logger.dbg("AutoSuspend: unschedule t1 timeout timer")
UIManager:unschedule(self.kindle_task)
end
end
function AutoSuspend:_start_kindle()
if self:_enabled() then
logger.dbg("AutoSuspend: start t1 timeout timer at", time.format_time(self.last_action_time))
self:_schedule_kindle()
end
end
else
-- NOP these on other platforms to avoid a proliferation of Device:isKindle() checks everywhere
function AutoSuspend:_schedule_kindle() end
function AutoSuspend:_unschedule_kindle() end
function AutoSuspend:_start_kindle() end
end
function AutoSuspend:init()
logger.dbg("AutoSuspend: init")
self.autoshutdown_timeout_seconds = G_reader_settings:readSetting("autoshutdown_timeout_seconds",
default_autoshutdown_timeout_seconds)
self.auto_suspend_timeout_seconds = G_reader_settings:readSetting("auto_suspend_timeout_seconds",
default_auto_suspend_timeout_seconds)
-- Disabled, until the user opts in.
self.auto_standby_timeout_seconds = G_reader_settings:readSetting("auto_standby_timeout_seconds", -1)
-- We only want those to exist as *instance* members
self.is_standby_scheduled = false
self.going_to_suspend = false
UIManager.event_hook:registerWidget("InputEvent", self)
-- We need an instance-specific function reference to schedule, because in some rare cases,
-- we may instantiate a new plugin instance *before* tearing down the old one.
-- If we only cared about accessing the right instance members,
-- we could use scheduleIn(t, self.function, self),
-- but we also care about unscheduling the task from *this* instance only:
-- unschedule(self.function) would unschedule that function for *every* instance,
-- as self.function == AutoSuspend.function ;).
self.task = function(shutdown_only)
self:_schedule(shutdown_only)
end
if Device:isKindle() then
self.kindle_task = function()
self:_schedule_kindle()
end
end
self.standby_task = function()
self:_schedule_standby()
end
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
-- Make sure we only have an AllowStandby handler when we actually want one...
self:toggleStandbyHandler(self:_enabledStandby())
self.last_action_time = UIManager:getElapsedTimeSinceBoot()
self:_start()
self:_start_kindle()
self:_start_standby()
-- self.ui is nil in the testsuite
if not self.ui or not self.ui.menu then return end
self.ui.menu:registerToMainMenu(self)
end
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
-- NOTE: event_hook takes care of overloading this to unregister the hook, too.
function AutoSuspend:onCloseWidget()
logger.dbg("AutoSuspend: onCloseWidget")
self:_unschedule()
self.task = nil
self:_unschedule_kindle()
self.kindle_task = nil
self:_unschedule_standby()
self.standby_task = nil
end
function AutoSuspend:onInputEvent()
logger.dbg("AutoSuspend: onInputEvent")
self.last_action_time = UIManager:getElapsedTimeSinceBoot()
end
function AutoSuspend:_unschedule_standby()
if self.is_standby_scheduled and self.standby_task then
logger.dbg("AutoSuspend: unschedule standby timer")
UIManager:unschedule(self.standby_task)
-- Restore the UIManager balance, as we run preventStandby right after scheduling this task.
UIManager:allowStandby()
self.is_standby_scheduled = false
end
end
function AutoSuspend:_schedule_standby(sleep_in)
sleep_in = sleep_in or self.auto_standby_timeout_seconds
-- Start the long list of conditions in which we do *NOT* want to go into standby ;).
if not Device:canStandby() or self.going_to_suspend then
return
end
-- Don't even schedule standby if we haven't set a proper timeout yet.
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
-- NOTE: We've essentially split the _enabledStandby check in two branches,
-- simply to avoid logging noise on devices that can't even standby ;).
if self.auto_standby_timeout_seconds <= 0 then
logger.dbg("AutoSuspend: No timeout set, no standby")
return
end
-- When we're in a state where entering suspend is undesirable, we simply postpone the check by the full delay.
local standby_delay_seconds
Assorted bag'o tweaks & fixes (#9569) * UIManager: Support more specialized update modes for corner-cases: * A2, which we'll use for the VirtualKeyboards keys (they'd... inadvertently switched to UI with the highlight refactor). * NO_MERGE variants of ui & partial (for sunxi). Use `[ui]` in ReaderHighlight's popup, because of a Sage kernel bug that could otherwise make it translucent, sometimes completely so (*sigh*). * UIManager: Assorted code cleanups & simplifications. * Logger & dbg: Unify logging style, and code cleanups. * SDL: Unbreak suspend/resume outside of the emulator (fix #9567). * NetworkMgr: Cache the network status, and allow it to be queried. (Used by AutoSuspend to avoid repeatedly poking the system when computing the standby schedule delay). * OneTimeMigration: Don't forget about `NETWORK_PROXY` & `STARDICT_DATA_DIR` when migrating `defaults.persistent.lua` (fix #9573) * WakeupMgr: Workaround an apparent limitation of the RTC found on i.MX5 Kobo devices, where setting a wakealarm further than UINT16_MAX seconds in the future would apparently overflow and wraparound... (fix #8039, many thanks to @yfede for the extensive deep-dive and for actually accurately pinpointing the issue!). * Kobo: Handle standby transitions at full CPU clock speeds, in order to limit the latency hit. * UIManager: Properly quit on reboot & exit. This ensures our exit code is preserved, as we exit on our own terms (instead of being killed by the init system). This is important on platforms where exit codes are semantically meaningful (e.g., Kobo). * UIManager: Speaking of reboot & exit, make sure the Screensaver shows in all circumstances (e.g., autoshutdown, re: #9542)), and that there aren't any extraneous refreshes triggered. (Additionally, fix a minor regression since #9448 about tracking this very transient state on Kobo & Cervantes). * Kindle: ID the upcoming Scribe. * Bump base (https://github.com/koreader/koreader-base/pull/1524)
2022-10-02 01:01:49 +00:00
-- NOTE: As this may fire repeatedly, we don't want to poke the actual Device implementation every few seconds,
-- instead, we rely on NetworkMgr's last known status. (i.e., this *should* match NetworkMgr:isWifiOn).
if NetworkMgr:getWifiState() then
-- Don't enter standby if wifi is on, as this will break in fun and interesting ways (from Wi-Fi issues to kernel deadlocks).
--logger.dbg("AutoSuspend: WiFi is on, delaying standby")
standby_delay_seconds = sleep_in
elseif Device.powerd:isCharging() and not Device:canPowerSaveWhileCharging() then
Assorted bag'o tweaks & fixes (#9569) * UIManager: Support more specialized update modes for corner-cases: * A2, which we'll use for the VirtualKeyboards keys (they'd... inadvertently switched to UI with the highlight refactor). * NO_MERGE variants of ui & partial (for sunxi). Use `[ui]` in ReaderHighlight's popup, because of a Sage kernel bug that could otherwise make it translucent, sometimes completely so (*sigh*). * UIManager: Assorted code cleanups & simplifications. * Logger & dbg: Unify logging style, and code cleanups. * SDL: Unbreak suspend/resume outside of the emulator (fix #9567). * NetworkMgr: Cache the network status, and allow it to be queried. (Used by AutoSuspend to avoid repeatedly poking the system when computing the standby schedule delay). * OneTimeMigration: Don't forget about `NETWORK_PROXY` & `STARDICT_DATA_DIR` when migrating `defaults.persistent.lua` (fix #9573) * WakeupMgr: Workaround an apparent limitation of the RTC found on i.MX5 Kobo devices, where setting a wakealarm further than UINT16_MAX seconds in the future would apparently overflow and wraparound... (fix #8039, many thanks to @yfede for the extensive deep-dive and for actually accurately pinpointing the issue!). * Kobo: Handle standby transitions at full CPU clock speeds, in order to limit the latency hit. * UIManager: Properly quit on reboot & exit. This ensures our exit code is preserved, as we exit on our own terms (instead of being killed by the init system). This is important on platforms where exit codes are semantically meaningful (e.g., Kobo). * UIManager: Speaking of reboot & exit, make sure the Screensaver shows in all circumstances (e.g., autoshutdown, re: #9542)), and that there aren't any extraneous refreshes triggered. (Additionally, fix a minor regression since #9448 about tracking this very transient state on Kobo & Cervantes). * Kindle: ID the upcoming Scribe. * Bump base (https://github.com/koreader/koreader-base/pull/1524)
2022-10-02 01:01:49 +00:00
-- Don't enter standby when charging on devices where charging *may* prevent entering low power states.
-- (*May*, because depending on the USB controller, it might depend on what it's plugged to, and how it's setup:
-- e.g., generally, on those devices, USBNet being enabled is guaranteed to prevent PM).
-- NOTE: Minor simplification here, we currently don't do the hasAuxBattery dance like in _schedule,
-- because all the hasAuxBattery devices can currently enter PM states while charging ;).
--logger.dbg("AutoSuspend: charging, delaying standby")
standby_delay_seconds = sleep_in
else
local now = UIManager:getElapsedTimeSinceBoot()
standby_delay_seconds = sleep_in - time.to_number(now - self.last_action_time)
-- If we blow past the deadline on the first call of a scheduling cycle,
-- make sure we don't go straight to allowStandby, as we haven't called preventStandby yet...
if not self.is_standby_scheduled and standby_delay_seconds <= 0 then
-- If this happens, it means we hit LeaveStandby or Resume *before* consuming new input events,
-- e.g., if there weren't any input events at all (woken up by an alarm),
-- or if the only input events we consumed did not trigger an InputEvent event (woken up by gyro events),
-- meaning self.last_action_time is further in the past than it ought to.
-- Delay by the full amount to avoid further bad scheduling interactions.
standby_delay_seconds = sleep_in
end
end
if standby_delay_seconds <= 0 then
-- We blew the deadline, tell UIManager we're ready to enter standby
self:allowStandby()
else
-- Reschedule standby for the full or remaining delay
-- NOTE: This is fairly chatty, given the low delays, but really helpful nonetheless... :/
logger.dbg("AutoSuspend: scheduling next standby check in", standby_delay_seconds)
UIManager:scheduleIn(standby_delay_seconds, self.standby_task)
-- Prevent standby until we actually blow the deadline
if not self.is_standby_scheduled then
self:preventStandby()
end
self.is_standby_scheduled = true
end
end
function AutoSuspend:preventStandby()
logger.dbg("AutoSuspend: preventStandby")
-- Tell UIManager that we want to prevent standby until our allowStandby scheduled task runs.
UIManager:preventStandby()
end
-- NOTE: This is what our scheduled task runs to trip the UIManager state to standby
function AutoSuspend:allowStandby()
logger.dbg("AutoSuspend: allowStandby")
-- Tell UIManager that we now allow standby.
UIManager:allowStandby()
-- We've just run our course.
self.is_standby_scheduled = false
end
function AutoSuspend:onSuspend()
logger.dbg("AutoSuspend: onSuspend")
-- We do not want auto suspend procedure to waste battery during suspend. So let's unschedule it
-- when suspending and restart it after resume.
self:_unschedule()
self:_unschedule_kindle()
self:_unschedule_standby()
if self:_enabledShutdown() and Device.wakeup_mgr then
Device.wakeup_mgr:addTask(self.autoshutdown_timeout_seconds, UIManager.poweroff_action)
end
-- Make sure we won't attempt to standby during suspend
-- (because _unschedule_standby calls allowStandby,
-- so we may trip UIManager's _standbyTransition and end up in AutoSuspend:onAllowStandby)...
-- NOTE: We only want to do this *once*, because we might get a series of Suspend events before actually getting a Resume!
-- (e.g., Power (button) -> Charging (USB plug) -> SleepCover).
if self:_enabledStandby() and not self.going_to_suspend then
UIManager:preventStandby()
end
-- Make sure that we don't re-schedule standby *after* us if we suspended *during* standby,
self.going_to_suspend = true
end
function AutoSuspend:onResume()
logger.dbg("AutoSuspend: onResume")
-- Restore standby balance after onSuspend
if self:_enabledStandby() and self.going_to_suspend then
UIManager:allowStandby()
end
self.going_to_suspend = false
if self:_enabledShutdown() and Device.wakeup_mgr then
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
Device.wakeup_mgr:removeTasks(nil, UIManager.poweroff_action)
end
-- Unschedule in case we tripped onUnexpectedWakeupLimit first...
self:_unschedule()
-- We should always follow an InputEvent, so last_action_time is already up to date :).
self:_start()
self:_start_kindle()
self:_unschedule_standby()
self:_start_standby()
end
function AutoSuspend:onUnexpectedWakeupLimit()
logger.dbg("AutoSuspend: onUnexpectedWakeupLimit")
-- Should be unnecessary, because we should *always* follow onSuspend, which already does this...
-- Better safe than sorry, though ;).
self:_unschedule()
-- Only re-engage the *shutdown* schedule to avoid doing the same dance indefinitely.
self:_restart()
end
function AutoSuspend:onNotCharging()
logger.dbg("AutoSuspend: onNotCharging")
-- Make sure both the suspend & shutdown timers are re-engaged on unplug,
-- in case we hit an UnexpectedWakeupLimit during the charge cycle...
self:_unschedule()
self:_start()
end
-- time_scale:
-- 2 ... display day:hour
-- 1 ... display hour:min
-- else ... display min:sec
function AutoSuspend:pickTimeoutValue(touchmenu_instance, title, info, setting,
default_value, range, time_scale)
-- NOTE: if is_day_hour then time.hour stands for days and time.min for hours
local InfoMessage = require("ui/widget/infomessage")
local DateTimeWidget = require("ui/widget/datetimewidget")
local setting_val = self[setting] > 0 and self[setting] or default_value
-- Standby uses a different scheduled task than suspend/shutdown
local is_standby = setting == "auto_standby_timeout_seconds"
local day, hour, minute, second
local day_max, hour_max, min_max, sec_max
if time_scale == 2 then
day = math.floor(setting_val * (1/(24*3600)))
hour = math.floor(setting_val * (1/3600)) % 24
day_max = math.floor(range[2] * (1/(24*3600))) - 1
hour_max = 23
elseif time_scale == 1 then
hour = math.floor(setting_val * (1/3600))
minute = math.floor(setting_val * (1/60)) % 60
hour_max = math.floor(range[2] * (1/3600)) - 1
min_max = 59
else
minute = math.floor(setting_val * (1/60))
second = math.floor(setting_val) % 60
min_max = math.floor(range[2] * (1/60)) - 1
sec_max = 59
end
local time_spinner
time_spinner = DateTimeWidget:new {
day = day,
hour = hour,
min = minute,
sec = second,
day_hold_step = 5,
hour_hold_step = 5,
min_hold_step = 10,
sec_hold_step = 10,
day_max = day_max,
hour_max = hour_max,
min_max = min_max,
sec_max = sec_max,
ok_text = _("Set timeout"),
title_text = title,
info_text = info,
callback = function(t)
self[setting] = (((t.day or 0) * 24 +
(t.hour or 0)) * 60 +
(t.min or 0)) * 60 +
(t.sec or 0)
self[setting] = Math.clamp(self[setting], range[1], range[2])
G_reader_settings:saveSetting(setting, self[setting])
if is_standby then
self:_unschedule_standby()
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
self:toggleStandbyHandler(self:_enabledStandby())
self:_start_standby()
else
self:_unschedule()
self:_start()
end
if touchmenu_instance then touchmenu_instance:updateItems() end
local time_string = datetime.secondsToClockDuration("letters", self[setting],
time_scale == 2 or time_scale == 1, true)
UIManager:show(InfoMessage:new{
text = T(_("%1: %2"), title, time_string),
timeout = 3,
})
end,
default_value = datetime.secondsToClockDuration("letters", default_value,
time_scale == 2 or time_scale == 1, true),
default_callback = function()
local day, hour, min, sec -- luacheck: ignore 431
if time_scale == 2 then
day = math.floor(default_value * (1/(24*3600)))
hour = math.floor(default_value * (1/3600)) % 24
elseif time_scale == 1 then
hour = math.floor(default_value * (1/3600))
min = math.floor(default_value * (1/60)) % 60
else
min = math.floor(default_value * (1/60))
sec = math.floor(default_value % 60)
end
time_spinner:update(nil, nil, day, hour, min, sec) -- It is ok to pass nils here.
end,
extra_text = _("Disable"),
extra_callback = function(this)
self[setting] = -1 -- disable with a negative time/number
G_reader_settings:saveSetting(setting, -1)
if is_standby then
self:_unschedule_standby()
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
self:toggleStandbyHandler(false)
else
self:_unschedule()
end
if touchmenu_instance then touchmenu_instance:updateItems() end
UIManager:show(InfoMessage:new{
text = T(_("%1: disabled"), title),
timeout = 3,
})
this:onClose()
end,
keep_shown_on_apply = true,
}
UIManager:show(time_spinner)
end
function AutoSuspend:addToMainMenu(menu_items)
-- Device:canSuspend() check elided because it's a plugin requirement
menu_items.autosuspend = {
sorting_hint = "device",
checked_func = function()
return self:_enabled()
end,
text_func = function()
if self.auto_suspend_timeout_seconds and self.auto_suspend_timeout_seconds > 0 then
local time_string = datetime.secondsToClockDuration("letters",
self.auto_suspend_timeout_seconds, true, true)
return T(_("Autosuspend timeout: %1"), time_string)
else
return _("Autosuspend timeout")
end
end,
keep_menu_open = true,
callback = function(touchmenu_instance)
-- 60 sec (1') is the minimum and 24*3600 sec (1day) is the maximum suspend time.
-- A suspend time of one day seems to be excessive.
-- But it might make sense for battery testing.
self:pickTimeoutValue(touchmenu_instance,
_("Timeout for autosuspend"), _("Enter time in hours and minutes."),
"auto_suspend_timeout_seconds", default_auto_suspend_timeout_seconds,
{60, 24*3600}, 1)
end,
}
if Device:canPowerOff() then
menu_items.autoshutdown = {
sorting_hint = "device",
checked_func = function()
return self:_enabledShutdown()
end,
text_func = function()
if self.autoshutdown_timeout_seconds and self.autoshutdown_timeout_seconds > 0 then
local time_string = datetime.secondsToClockDuration("letters", self.autoshutdown_timeout_seconds,
true, true)
return T(_("Autoshutdown timeout: %1"), time_string)
else
return _("Autoshutdown timeout")
end
end,
keep_menu_open = true,
callback = function(touchmenu_instance)
-- 5*60 sec (5') is the minimum and 28*24*3600 (28days) is the maximum shutdown time.
-- Minimum time has to be big enough, to avoid start-stop death scenarious.
-- Maximum more than four weeks seems a bit excessive if you want to enable authoshutdown,
-- even if the battery can last up to three months.
self:pickTimeoutValue(touchmenu_instance,
_("Timeout for autoshutdown"), _("Enter time in days and hours."),
"autoshutdown_timeout_seconds", default_autoshutdown_timeout_seconds,
{5*60, 28*24*3600}, 2)
end,
}
end
if Device:canStandby() then
local standby_help = _([[Standby puts the device into a power-saving state in which the screen is on and user input can be performed.
Standby can not be entered if Wi-Fi is on.
Upon user input, the device needs a certain amount of time to wake up. Generally, the newer the device, the less noticeable this delay will be, but it can be fairly aggravating on slower devices.]])
-- Add a big fat warning on unreliable NTX boards
if Device:isKobo() and not Device:hasReliableMxcWaitFor() then
standby_help = standby_help .. "\n" ..
_([[Your device is known to be extremely unreliable, as such, failure to enter a power-saving state *may* hang the kernel, resulting in a full device hang or a device restart.]])
end
menu_items.autostandby = {
sorting_hint = "device",
checked_func = function()
return self:_enabledStandby()
end,
text_func = function()
if self.auto_standby_timeout_seconds and self.auto_standby_timeout_seconds > 0 then
local time_string = datetime.secondsToClockDuration("letters", self.auto_standby_timeout_seconds,
false, true, true)
return T(_("Autostandby timeout: %1"), time_string)
else
return _("Autostandby timeout")
end
end,
help_text = standby_help,
keep_menu_open = true,
callback = function(touchmenu_instance)
-- 4 sec is the minimum and 15*60 sec (15min) is the maximum standby time.
-- We need a minimum time, so that scheduled function have a chance to execute.
-- A standby time of 15 min seem excessive.
-- But or battery testing it might give some sense.
self:pickTimeoutValue(touchmenu_instance,
_("Timeout for autostandby"), _("Enter time in minutes and seconds."),
"auto_standby_timeout_seconds", default_auto_standby_timeout_seconds,
{3, 15*60}, 0)
end,
}
end
end
-- KOReader is merely waiting for user input right now.
-- UI signals us that standby is allowed at this very moment because nothing else goes on in the background.
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
-- NOTE: To make sure this will not even run when autostandby is disabled,
-- this is only aliased as `onAllowStandby` when necessary.
-- (Because the Event is generated regardless of us, as many things can call UIManager:allowStandby).
function AutoSuspend:AllowStandbyHandler()
logger.dbg("AutoSuspend: onAllowStandby")
-- This piggy-backs minimally on the UI framework implemented for the PocketBook autostandby plugin,
-- see its own AllowStandby handler for more details.
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
local wake_in
-- Wake up before the next scheduled function executes (e.g. footer update, suspend ...)
local next_task_time = UIManager:getNextTaskTime()
if next_task_time then
-- Wake up slightly after the formerly scheduled event,
-- to avoid resheduling the same function after a fraction of a second again (e.g. don't draw footer twice).
wake_in = math.floor(time.to_number(next_task_time)) + 1
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
else
wake_in = math.huge
end
if wake_in >= 3 then -- don't go into standby, if scheduled wakeup is in less than 3 secs
logger.dbg("AutoSuspend: entering standby with a wakeup alarm in", wake_in, "s")
-- This obviously needs a matching implementation in Device, the canonical one being Kobo.
Device:standby(wake_in)
logger.dbg("AutoSuspend: left standby after", time.format_time(Device.last_standby_time), "s")
-- NOTE: UIManager consumes scheduled tasks before input events,
-- solely because of where we run inside an UI frame (via UIManager:_standbyTransition):
-- we're neither a scheduled task nor an input event, we run *between* scheduled tasks and input polling.
-- That means we go straight to input polling when returning, *without* a trip through the task queue
-- (c.f., UIManager:_checkTasks in UIManager:handleInput).
UIManager:shiftScheduledTasksBy( - Device.last_standby_time) -- correct scheduled times by last_standby_time
-- Since we go straight to input polling, and that our time spent in standby won't have affected the already computed
-- input polling deadline (because MONOTONIC doesn't tick during standby/suspend),
-- tweak said deadline to make sure poll will return immediately, so we get a chance to run through the task queue ASAP.
-- This shouldn't prevent us from actually consuming any pending input events first,
-- because if we were woken up by user input, those events should already be in the evdev queue...
UIManager:consumeInputEarlyAfterPM(true)
-- When we exit this method, we are sure that the input polling deadline is zero (consumeInputEarly).
-- UIManager will check newly scheduled tasks before going to input polling again (with a new deadline).
self:_start_standby() -- Schedule the next standby check in the future.
else
-- When we exit this method, we are sure that the input polling deadline is approximately `wake_in`.
-- So it is safe to schedule another task a bit later.
self:_start_standby(wake_in + 0.1) -- Schedule the next standby check 0.1 seconds after the next calculated wakeup time.
A host of low power states related tweaks (#9036) * Disable all non power management related input during suspend. (This prevents wonky touch events from being tripped when closing a sleep cover on an already-in-suspend device, among other things). * Kobo: Use our WakeupMgr instance, not the class. * WakupMgr: split `removeTask` in two: * `removeTask`, which *only* takes a queue index as input, and only removes a single task. Greatly simplifies the function (i.e., it's just a `table.remove`). * `removeTasks`, which takes an epoch or a cb ref, and removes *every* task that matches. * Both of these will also *always* re-schedule the next task (if any) on exit, since we can have multiple WakeupMgr tasks queued, but we can only have a single RTC wake alarm set ;). * `wakeupAction` now takes a `proximity` argument, which it passes on to its `validateWakeupAlarmByProximity` call, allowing call sites to avoir having to duplicate that call themselves when they want to use a custom proximity window. * `wakeupAction` now re-schedules the next task (if any) on exit. * Simplify `Kobo:checkUnexpectedWakeup`, by removing the duplicate `WakerupMgr:validateWakeupAlarmByProximity` call, now that we can pass a proximity window to `WakeuoMgr:wakeupAction`. * The various network activity timeouts are now halved when autostandby is enabled. * Autostandby: get rid of the dummy deadline_guard task, as it's no longer necessary since #9009. * UIManager: The previous change allows us to simplify `getNextTaskTimes` into a simpler `getNextTaskTime` variant, getting rid of a table & a loop. * ReaderFooter & ReaderHeader: Make sure we only perform a single refresh when exiting standby. * Kobo: Rewrite sysfs writes to use ANSI C via FFI instead of stdio via Lua, as it obscured some common error cases (e.g., EBUSY on /sys/power/state). * Kobo: Simplify `suspend`, now that we have sane error handling in sysfs writes. * Kobo.powerd: Change `isCharging` & `isAuxCharging` behavior to match the behavior of the NTX ioctl (i.e., Charging == Plugged-in). This has the added benefit of making the AutoSuspend checks behave sensibly in the "fully-charged but still plugged in" scenario (because being plugged in is enough to break PM on `!canPowerSaveWhileCharging` devices). * AutoSuspend: Disable our `AllowStandby` handler when auto standby is disabled, so as to not interfere with other modules using `UIManager:allowStandby` (fix #9038). * PowerD: Allow platforms to implement `isCharged`, indicating that the battery is full while still plugged in to a power source (battery icon becomes a power plug icon). * Kobo.powerd: Implement `isCharged`, and kill charging LEDs once battery is full. * Kindle.powerd: Implement `isCharged` on post-Wario devices. (`isCharging` is still true in that state, as it ought to).
2022-05-01 21:41:08 +00:00
end
end
function AutoSuspend:toggleStandbyHandler(toggle)
if toggle then
self.onAllowStandby = self.AllowStandbyHandler
else
self.onAllowStandby = nil
end
end
function AutoSuspend:onNetworkConnected()
logger.dbg("AutoSuspend: onNetworkConnected")
self:_unschedule_standby()
-- Schedule the next check at the end of our timescale, the subsequent checks are ... well never ;)
self:_start_standby(math.huge)
end
function AutoSuspend:onNetworkConnecting()
logger.dbg("AutoSuspend: onNetworkConnecting")
self:_unschedule_standby()
-- Schedule the next check in 60s. If something goes wrong, the subsequent checks are in `self.auto_standby_timeout_seconds`.
self:_start_standby(time.s(60))
end
function AutoSuspend:onNetworkDisconnected()
logger.dbg("AutoSuspend: onNetworkDisconnected")
self:_unschedule_standby()
-- Schedule the next check as usual.
self:_start_standby()
end
--[[ -- not necessary right now
function AutoSuspend:onNetworkDisconnecting()
logger.dbg("AutoSuspend: onNetworkDisconnecting")
end
--]]
return AutoSuspend