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mirror of https://github.com/koreader/koreader synced 2024-11-10 01:10:34 +00:00
koreader/frontend/device/kobo/powerd.lua
Valentin Dubois 526a1fb727
Initial support for new Kobo (Clara B/W + Colour, Libra Colour) (#11737)
* Support the Clara B&W, Clara Colour & Libra Colour
* Enable HW dithering on *all* the Kobo MTK devices
* Enforce 32bpp instead of 8bpp for Kobo devices with a color panel (the driver doesn't actually support 8bpp anyway)
* Enable standby support on MTK (whenever possible, i.e., not when plugged in, as that is horribly, horribly broken).
* Enforce the dedicated "color" waveform mode for image content in ScreenSaver, ImageViewer & Reader.
* Fix charging LED support on MTK
* Tweak the frontlight ramp on MTK + LM3630 so that it actually ramps smoothly
2024-05-09 03:27:37 +02:00

503 lines
22 KiB
Lua

local BasePowerD = require("device/generic/powerd")
local Math = require("optmath")
local NickelConf = require("device/kobo/nickel_conf")
local SysfsLight = require ("device/sysfs_light")
local UIManager
local RTC = require("ffi/rtc")
-- Here, we only deal with the real hw intensity.
-- Dealing with toggling and remembering/restoring
-- previous intensity when toggling/untoggling is done
-- by BasePowerD.
local KoboPowerD = BasePowerD:new{
fl_min = 0, fl_max = 100,
fl = nil,
battery_sysfs = nil,
aux_battery_sysfs = nil,
fl_warmth_min = 0, fl_warmth_max = 100,
fl_was_on = nil,
}
--- @todo Remove G_defaults:readSetting("KOBO_LIGHT_ON_START")
function KoboPowerD:_syncKoboLightOnStart()
local new_intensity = nil
local is_frontlight_on = nil
local new_warmth = nil
local kobo_light_on_start = tonumber(G_defaults:readSetting("KOBO_LIGHT_ON_START"))
if kobo_light_on_start then
if kobo_light_on_start > 0 then
new_intensity = math.min(kobo_light_on_start, 100)
is_frontlight_on = true
elseif kobo_light_on_start == 0 then
new_intensity = 0
is_frontlight_on = false
elseif kobo_light_on_start == -2 then -- get values from NickelConf
new_intensity = NickelConf.frontLightLevel.get()
is_frontlight_on = NickelConf.frontLightState:get()
if self.fl_warmth ~= nil then
local new_color = NickelConf.colorSetting.get()
if new_color ~= nil then
-- ColorSetting is stored as a color temperature scale in Kelvin,
-- from 1500 to 6400
-- so normalize this to [0, 100] on our end.
new_warmth = (100 - Math.round((new_color - 1500) * (1/49)))
end
end
if is_frontlight_on == nil then
-- this device does not support frontlight toggle,
-- we set the value based on frontlight intensity.
if new_intensity > 0 then
is_frontlight_on = true
else
is_frontlight_on = false
end
end
if is_frontlight_on == false and new_intensity == 0 then
-- frontlight was toggled off in nickel, and we have no
-- level-before-toggle-off (firmware without "FrontLightState"):
-- use the one from koreader settings
new_intensity = G_reader_settings:readSetting("frontlight_intensity")
end
else -- if kobo_light_on_start == -1 or other unexpected value then
-- As we can't read value from the OS or hardware, use last values
-- stored in koreader settings
new_intensity = G_reader_settings:readSetting("frontlight_intensity")
is_frontlight_on = G_reader_settings:readSetting("is_frontlight_on")
if self.fl_warmth ~= nil then
new_warmth = G_reader_settings:readSetting("frontlight_warmth")
end
end
end
if new_intensity ~= nil then
self.hw_intensity = new_intensity
end
if is_frontlight_on ~= nil then
-- will only be used to give initial state to BasePowerD:_decideFrontlightState()
self.initial_is_fl_on = is_frontlight_on
end
if new_warmth ~= nil then
self.fl_warmth = new_warmth
end
-- In any case frontlight is off, ensure intensity is non-zero so untoggle works
if self.initial_is_fl_on == false and self.hw_intensity == 0 then
self.hw_intensity = 1
end
end
function KoboPowerD:init()
-- Setup the sysfs paths
self.batt_capacity_file = self.battery_sysfs .. "/capacity"
self.is_charging_file = self.battery_sysfs .. "/status"
if self.device:hasAuxBattery() then
self.aux_batt_capacity_file = self.aux_battery_sysfs .. "/cilix_bat_capacity"
self.aux_batt_connected_file = self.aux_battery_sysfs .. "/cilix_conn" -- or "active"
self.aux_batt_charging_file = self.aux_battery_sysfs .. "/charge_status" -- "usb_conn" would not allow us to detect the "Full" state
self.getAuxCapacityHW = function(this)
-- NOTE: The first few reads after connecting to the PowerCover may fail, in which case,
-- we pass that detail along to PowerD so that it may retry the call sooner.
return this:unchecked_read_int_file(this.aux_batt_capacity_file)
end
self.isAuxBatteryConnectedHW = function(this)
-- aux_batt_connected_file shows us:
-- 0 if power cover is not connected
-- 1 if the power cover is connected
-- 1 or sometimes -1 if the power cover is connected without a charger
return this:read_int_file(this.aux_batt_connected_file) ~= 0
end
self.isAuxChargingHW = function(this)
-- 0 when discharging
-- 3 when full
-- 2 when charging via DCP
return this:read_int_file(this.aux_batt_charging_file) ~= 0
end
self.isAuxChargedHW = function(this)
return this:read_int_file(this.aux_batt_charging_file) == 3
end
end
-- Default values in case self:_syncKoboLightOnStart() does not find
-- any previously saved setting (and for unit tests where it will
-- not be called)
self.hw_intensity = 20
self.initial_is_fl_on = true
if self.device:hasFrontlight() then
self.device.frontlight_settings = self.device.frontlight_settings or {}
-- Does this device require non-standard ramping behavior?
self.device.frontlight_settings.ramp_off_delay = self.device.frontlight_settings.ramp_off_delay or 0.0
--- @note: Newer devices (or at least some PWM controllers) appear to block slightly longer on FL ioctls/sysfs,
--- so we only really need a delay on older devices.
self.device.frontlight_settings.ramp_delay = self.device.frontlight_settings.ramp_delay or (self.device:hasNaturalLight() and 0.0 or 0.025)
-- Some PWM controllers *really* don't like being interleaved between screen refreshes,
-- so we delay the *start* of the ramp on these.
self.device.frontlight_settings.delay_ramp_start = self.device.frontlight_settings.delay_ramp_start or false
-- If this device has natural light, use the sysfs interface, and ioctl otherwise.
-- NOTE: On the Forma, nickel still appears to prefer using ntx_io to handle the FL,
-- but it does use sysfs for the NL...
if self.device:hasNaturalLight() then
local nl_config = G_reader_settings:readSetting("natural_light_config")
if nl_config then
for key, val in pairs(nl_config) do
self.device.frontlight_settings[key] = val
end
end
-- Does this device's NaturalLight use a custom scale?
self.fl_warmth_min = self.device.frontlight_settings.nl_min or self.fl_warmth_min
self.fl_warmth_max = self.device.frontlight_settings.nl_max or self.fl_warmth_max
-- Generic does it *after* init, but we're going to need it *now*...
self.warmth_scale = 100 / self.fl_warmth_max
-- If this device has a mixer, we can use the ioctl for brightness control, as it's much lower latency.
if self.device:hasNaturalLightMixer() then
local kobolight = require("ffi/kobolight")
local ok, light = pcall(kobolight.open)
if ok then
self.device.frontlight_settings.frontlight_ioctl = light
end
end
self.fl = SysfsLight:new(self.device.frontlight_settings)
self.fl_warmth = 0
self:_syncKoboLightOnStart()
else
local kobolight = require("ffi/kobolight")
local ok, light = pcall(kobolight.open)
if ok then
self.fl = light
self:_syncKoboLightOnStart()
end
end
-- See discussion in https://github.com/koreader/koreader/issues/3118#issuecomment-334995879
-- for the reasoning behind this bit of insanity.
if self:isFrontlightOnHW() then
-- On devices with a mixer, setIntensity will *only* set the FL, so, ensure we honor the warmth, too.
if self.device:hasNaturalLightMixer() then
self:setWarmth(self.fl_warmth, true)
end
-- Use setIntensity to ensure it sets fl_intensity, and because we don't want the ramping behavior of turnOn
self:setIntensity(self:frontlightIntensityHW())
else
-- Use setBrightness so as *NOT* to set hw_intensity, so toggle will still (mostly) work.
self.fl:setBrightness(0)
-- And make sure the fact that we started with the FL off propagates as best as possible.
self.initial_is_fl_on = false
-- NOTE: BasePowerD's init sets fl_intensity to hw_intensity right after this,
-- so, instead of simply setting hw_intensity to either 1 or fl_min or fl_intensity, depending on user preference,
-- we jump through a couple of hoops in turnOnFrontlightHW to recover from the first quirky toggle...
end
end
end
function KoboPowerD:saveSettings()
if self.device:hasFrontlight() then
-- Store BasePowerD values into settings (and not our hw_intensity, so
-- that if frontlight was toggled off, we save and restore the previous
-- untoggled intensity and toggle state at next startup)
local cur_intensity = self.fl_intensity
-- If we're shutting down straight from suspend then the frontlight won't
-- be turned on but we still want to save its state.
local cur_is_fl_on = self.is_fl_on or self.fl_was_on or false
local cur_warmth = self.fl_warmth
-- Save intensity to koreader settings
G_reader_settings:saveSetting("frontlight_intensity", cur_intensity)
G_reader_settings:saveSetting("is_frontlight_on", cur_is_fl_on)
if cur_warmth ~= nil then
G_reader_settings:saveSetting("frontlight_warmth", cur_warmth)
end
-- And to "Kobo eReader.conf" if needed
if G_defaults:readSetting("KOBO_SYNC_BRIGHTNESS_WITH_NICKEL") then
if NickelConf.frontLightState.get() ~= nil then
if NickelConf.frontLightState.get() ~= cur_is_fl_on then
NickelConf.frontLightState.set(cur_is_fl_on)
end
else -- no support for frontlight state
if not cur_is_fl_on then -- if toggled off, save intensity as 0
cur_intensity = self.fl_min
end
end
if NickelConf.frontLightLevel.get() ~= cur_intensity then
NickelConf.frontLightLevel.set(cur_intensity)
end
if cur_warmth ~= nil then
local warmth_rescaled = (100 - cur_warmth) * 49 + 1500
if NickelConf.colorSetting.get() ~= warmth_rescaled then
NickelConf.colorSetting.set(warmth_rescaled)
end
end
end
end
end
function KoboPowerD:frontlightIntensityHW()
return self.hw_intensity
end
function KoboPowerD:isFrontlightOnHW()
if self.initial_is_fl_on ~= nil then -- happens only once after init()
-- give initial state to BasePowerD, which will
-- reset our self.hw_intensity to 0 if self.initial_is_fl_on is false
local ret = self.initial_is_fl_on
self.initial_is_fl_on = nil
return ret
end
return self.hw_intensity > 0 and not self.fl_ramp_down_running
end
function KoboPowerD:_setIntensityHW(intensity)
if self.fl == nil then return end
if self.fl_warmth == nil or self.device:hasNaturalLightMixer() then
-- We either don't have NL, or we have a mixer: we only want to set the intensity (c.f., #5429)
self.fl:setBrightness(intensity)
else
-- Not having a mixer sucks, we always have to set intensity combined w/ warmth (#5465)
self.fl:setNaturalBrightness(intensity, self.fl_warmth)
end
self.hw_intensity = intensity
-- Now that we have set intensity, we need to let BasePowerD
-- know about possibly changed frontlight state (if we came
-- from light toggled off to some intensity > 0).
self:_decideFrontlightState()
end
function KoboPowerD:setIntensityHW(intensity)
self:_stopFrontlightRamp()
self:_setIntensityHW(intensity)
end
-- NOTE: We *can* actually read this from the system (as well as frontlight level, since Mk. 7),
-- but this is already a huge mess, so, keep ignoring it...
function KoboPowerD:frontlightWarmthHW()
return self.fl_warmth
end
function KoboPowerD:setWarmthHW(warmth)
if self.fl == nil then return end
-- Don't turn the light back on on legacy NaturalLight devices just for the sake of setting the warmth!
-- That's because we can only set warmth independently of brightness on devices with a mixer.
-- On older ones, calling setWarmth *will* actually set the brightness, too!
if self.device:hasNaturalLightMixer() or self:isFrontlightOnHW() then
self.fl:setWarmth(warmth)
end
end
function KoboPowerD:getCapacityHW()
return self:read_int_file(self.batt_capacity_file)
end
-- NOTE: Match the behavior of the ntx_io _Is_USB_plugged ioctl!
-- (Otherwise, a device that is fully charged, but still plugged in will no longer be flagged as charging).
function KoboPowerD:isChargingHW()
return self:read_str_file(self.is_charging_file) ~= "Discharging"
end
function KoboPowerD:isChargedHW()
-- On sunxi, the proper "Full" status is reported, while older kernels (even Mk. 9) report "Not charging"
-- c.f., POWER_SUPPLY_PROP_STATUS in ricoh61x_batt_get_prop @ drivers/power/ricoh619-battery.c
-- (or drivers/power/supply/ricoh619-battery.c on newer kernels).
local status = self:read_str_file(self.is_charging_file)
if status == "Full" then
return true
elseif status == "Not charging" and self:getCapacity() == 100 then
return true
end
return false
end
function KoboPowerD:_endRampDown(end_intensity, done_callback)
self:_setIntensityHW(end_intensity)
self.fl_ramp_down_running = false
if done_callback then
done_callback()
end
end
function KoboPowerD:_stopFrontlightRamp()
if self.fl_ramp_up_running or self.fl_ramp_down_running then
-- Make sure we have no other ramp running.
UIManager:unschedule(self.turnOffFrontlightRamp)
UIManager:unschedule(self.turnOnFrontlightRamp)
UIManager:unschedule(self._endRampDown)
UIManager:unschedule(self._endRampUp)
self.fl_ramp_up_running = false
self.fl_ramp_down_running = false
end
end
-- This will ramp down faster at high intensity values (i.e., start), and slower at lower intensity values (i.e., end).
-- That's an attempt at making the *perceived* effect appear as a more linear brightness change.
-- The whole function gets called at most log(100)/log(0.75) = 17 times,
-- leading to a 0.025*17 + 0.5 = 0.925s ramp down time (non blocking); can be aborted.
function KoboPowerD:turnOffFrontlightRamp(curr_ramp_intensity, end_intensity, done_callback)
curr_ramp_intensity = math.floor(math.max(curr_ramp_intensity * .75, self.fl_min))
if curr_ramp_intensity > end_intensity then
self:_setIntensityHW(curr_ramp_intensity)
UIManager:scheduleIn(self.device.frontlight_settings.ramp_delay, self.turnOffFrontlightRamp, self, curr_ramp_intensity, end_intensity, done_callback)
else
-- Some devices require delaying the final step, to prevent them from jumping straight to zero and messing up the ramp.
UIManager:scheduleIn(self.device.frontlight_settings.ramp_off_delay, self._endRampDown, self, end_intensity, done_callback)
-- no reschedule here, as we are done
end
end
function KoboPowerD:turnOffFrontlightHW(done_callback)
if not self:isFrontlightOnHW() then
return
end
if UIManager then
-- We've got nothing to do if we're already ramping down
if not self.fl_ramp_down_running then
self:_stopFrontlightRamp()
-- NOTE: For devices with a ramp_off_delay, we only ramp if we start from > 2%,
-- otherwise you just see a single delayed step (1%) or two stuttery ones (2%) ;).
-- FWIW, modern devices with a different PWM controller (i.e., with no controller-specific ramp_off_delay workarounds)
-- deal with our 2% ramp without stuttering.
if self.device.frontlight_settings.ramp_off_delay > 0.0 and self.fl_intensity <= 2 then
UIManager:scheduleIn(self.device.frontlight_settings.ramp_delay, self._endRampDown, self, self.fl_min, done_callback)
else
-- NOTE: Similarly, some controllers *really* don't like to be interleaved with screen refreshes,
-- so we wait until the next UI frame for the refreshes to go through first...
if self.device.frontlight_settings.delay_ramp_start then
UIManager:nextTick(function()
self:turnOffFrontlightRamp(self.fl_intensity, self.fl_min, done_callback)
self.fl_ramp_down_running = true
end)
else
self:turnOffFrontlightRamp(self.fl_intensity, self.fl_min, done_callback)
self.fl_ramp_down_running = true
end
end
end
else
-- If UIManager is not initialized yet, just turn it off immediately
self:setIntensityHW(self.fl_min)
end
-- We consume done_callback ourselves, make sure Generic's PowerD gets the memo
return true
end
function KoboPowerD:_endRampUp(end_intensity, done_callback)
self:_setIntensityHW(end_intensity)
self.fl_ramp_up_running = false
if done_callback then
done_callback()
end
end
-- Similar functionality as `Kobo:turnOnFrontlightHW`, but the other way around ;).
function KoboPowerD:turnOnFrontlightRamp(curr_ramp_intensity, end_intensity, done_callback)
if curr_ramp_intensity == 0 then
curr_ramp_intensity = 1
else
curr_ramp_intensity = math.ceil(math.min(curr_ramp_intensity * 1.5, self.fl_max))
end
if curr_ramp_intensity < end_intensity then
self:_setIntensityHW(curr_ramp_intensity)
UIManager:scheduleIn(self.device.frontlight_settings.ramp_delay, self.turnOnFrontlightRamp, self, curr_ramp_intensity, end_intensity, done_callback)
else
UIManager:scheduleIn(self.device.frontlight_settings.ramp_delay, self._endRampUp, self, end_intensity, done_callback)
-- no reschedule here, as we are done
end
end
function KoboPowerD:turnOnFrontlightHW(done_callback)
-- NOTE: Insane workaround for the first toggle after a startup with the FL off.
-- The light is actually off, but hw_intensity couldn't have been set to a sane value because of a number of interactions.
-- So, fix it now, so we pass the isFrontlightOnHW check (which checks if hw_intensity > fl_min).
if (self.is_fl_on == false and self.hw_intensity > self.fl_min and self.hw_intensity == self.fl_intensity) then
self.hw_intensity = self.fl_min
end
if self:isFrontlightOnHW() then
return
end
if UIManager then
-- We've got nothing to do if we're already ramping up
if not self.fl_ramp_up_running then
self:_stopFrontlightRamp()
if self.device.frontlight_settings.ramp_off_delay > 0.0 and self.fl_intensity <= 2 then
-- NOTE: Match the ramp down behavior on devices with a ramp_off_delay: jump straight to 1 or 2% intensity.
UIManager:scheduleIn(self.device.frontlight_settings.ramp_delay, self._endRampUp, self, self.fl_intensity, done_callback)
else
-- Same deal as in turnOffFrontlightHW
if self.device.frontlight_settings.delay_ramp_start then
UIManager:nextTick(function()
self:turnOnFrontlightRamp(self.fl_min, self.fl_intensity, done_callback)
self.fl_ramp_up_running = true
end)
else
self:turnOnFrontlightRamp(self.fl_min, self.fl_intensity, done_callback)
self.fl_ramp_up_running = true
end
end
end
else
-- If UIManager is not initialized yet, just turn it on immediately
self:setIntensityHW(self.fl_intensity)
end
-- We consume done_callback ourselves, make sure Generic's PowerD gets the memo
return true
end
-- Turn off front light before suspend.
function KoboPowerD:beforeSuspend()
-- Inhibit user input and emit the Suspend event.
self.device:_beforeSuspend()
-- Handle the frontlight last,
-- to prevent as many things as we can from interfering with the smoothness of the ramp
if self.fl then
-- Remember the current frontlight state
self.fl_was_on = self.is_fl_on
-- Turn off the frontlight
-- NOTE: Funky delay mainly to yield to the EPDC's refresh on UP systems.
-- (Neither yieldToEPDC nor nextTick & friends quite cut it here)...
UIManager:scheduleIn(0.001, self.turnOffFrontlight, self)
end
end
-- Restore front light state after resume.
function KoboPowerD:afterResume()
-- Set the system clock to the hardware clock's time.
RTC:HCToSys()
self:invalidateCapacityCache()
-- Restore user input and emit the Resume event.
self.device:_afterResume()
-- There's a whole bunch of stuff happening before us in Generic:onPowerEvent,
-- so we'll delay this ever so slightly so as to appear as smooth as possible...
if self.fl then
-- Don't bother if the light was already off on suspend
if self.fl_was_on then
-- Turn the frontlight back on
-- NOTE: There's quite likely *more* resource contention than on suspend here :/.
UIManager:scheduleIn(0.001, self.turnOnFrontlight, self)
end
end
end
function KoboPowerD:UIManagerReadyHW(uimgr)
UIManager = uimgr
end
return KoboPowerD