2
0
mirror of https://github.com/koreader/koreader synced 2024-11-10 01:10:34 +00:00
koreader/frontend/ui/trapper.lua
2024-05-09 12:10:53 +02:00

686 lines
29 KiB
Lua

--[[--
Trapper module: provides methods for simple interaction with UI,
without the need for explicit callbacks, for use by linear jobs
between their steps.
Allows code to trap UI (give progress info to UI, ask for user choice),
or get trapped by UI (get interrupted).
Mostly done with coroutines, but hides their usage for simplicity.
]]
local ConfirmBox = require("ui/widget/confirmbox")
local InfoMessage = require("ui/widget/infomessage")
local TrapWidget = require("ui/widget/trapwidget")
local UIManager = require("ui/uimanager")
local buffer = require("string.buffer")
local ffiutil = require("ffi/util")
local logger = require("logger")
local _ = require("gettext")
local Trapper = {}
--[[--
Executes a function and allows it to be trapped (that is: to use our
other methods).
Simple wrapper function for a coroutine, which is a prerequisite
for all our methods (this simply abstracts the @{coroutine}
business to our callers), and execute it.
(If some code is not wrap()'ed, most of the other methods, when called,
will simply log or fallback to a non-UI action or OK choice.)
This call should be the last step in some event processing code,
as it may return early (the first @{coroutine.yield|coroutine.yield()} in any of the other
methods will return from this function), and later be resumed by @{ui.uimanager|UIManager}.
So any following (unwrapped) code would be then executed while `func`
is half-done, with unintended consequences.
@param func function reference to function to wrap and execute
]]
function Trapper:wrap(func)
-- Catch and log any error happening in func (an error happening
-- in a coroutine just aborts silently the coroutine)
local pcalled_func = function()
UIManager:preventStandby()
-- we use xpcall as it can give a whole stacktrace, unlike pcall
local ok, err = xpcall(func, debug.traceback)
UIManager:allowStandby()
if not ok then
logger.warn("error in wrapped function:", err)
return false
end
return true
-- As a coroutine, we will return at first coroutine.yield(),
-- and the above true/false won't probably be caught by
-- any code, but let's do it anyway.
end
local co = coroutine.create(pcalled_func)
return coroutine.resume(co)
end
--- Returns if code is wrapped
--
-- @treturn boolean true if code is wrapped by Trapper, false otherwise
function Trapper:isWrapped()
if coroutine.running() then
return true
end
return false
end
--- Clears left-over widget
function Trapper:clear()
if self:isWrapped() then
if self.current_widget then
UIManager:close(self.current_widget)
UIManager:forceRePaint()
self.current_widget = nil
end
end
end
--- Clears left-over widget and resets Trapper state
function Trapper:reset()
self:clear()
-- Reset some properties
self.paused_text = nil
self.paused_continue_text = nil
self.paused_abort_text = nil
return true
end
--[[--
Displays an InfoMessage, and catches dismissal.
Display a InfoMessage with text, or keep existing InfoMessage if text = nil,
and return true.
UNLESS the previous widget was itself a InfoMessage and it has been
dismissed (by Tap on the screen), in which case the new InfoMessage
is not displayed, and false is returned.
One can only know a InfoMessage has been dismissed when trying to
display a new one (we can't do better than that with coroutines).
So, don't hesitate to call it regularly (each call costs 100ms), between
steps of the work, to provide good responsiveness.
Trapper:info() is a shortcut to get dismiss info while keeping
the existing InfoMessage displayed.
Optional fast_refresh parameter should only be used when
displaying an InfoMessage over a previous InfoMessage of the
exact same size.
@string text text to display as an InfoMessage (or nil to keep existing one)
@boolean fast_refresh[opt=false] true for faster refresh
@treturn boolean true if InfoMessage was not dismissed, false if dismissed
@usage
Trapper:info("some text about step or progress")
go_on = Trapper:info()
]]
function Trapper:info(text, fast_refresh)
local _coroutine = coroutine.running()
if not _coroutine then
logger.info("unwrapped info:", text)
return true -- not dismissed
end
if self.current_widget and self.current_widget.is_infomessage then
-- We are replacing a InfoMessage with a new InfoMessage: we want to check
-- if the previous one was dismissed.
-- We added a dismiss_callback to our previous InfoMessage. For a Tap
-- to get processed and get our dismiss_callback called, we need to give
-- control for a short time to UIManager: this will be done with
-- the coroutine.yield() that follows.
-- If no dismiss_callback was fired, we need to get this code resumed:
-- that will be done with the following go_on_func schedule in 0.1 second.
local go_on_func = function() coroutine.resume(_coroutine, true) end
-- delay matters: 0.05 or 0.1 seems fine
-- 0.01 is too fast: go_on_func is called before our dismiss_callback is processed
UIManager:scheduleIn(0.1, go_on_func)
local go_on = coroutine.yield() -- gives control back to UIManager
-- go_on is the 2nd arg given to the coroutine.resume() that got us resumed:
-- false if it was a dismiss_callback
-- true if it was the schedule go_on_func
if not go_on then -- dismiss_callback called
UIManager:unschedule(go_on_func) -- no more need for this scheduled action
-- Don't just return false without confirmation (this tap may have been
-- made by error, and we don't want to just cancel a long running job)
local abort_box = ConfirmBox:new{
text = self.paused_text and self.paused_text or _("Paused"),
-- ok and cancel reversed, as tapping outside will
-- get cancel_callback called: if tap outside was the
-- result of a tap error, we want to continue. Cancelling
-- will need an explicit tap on the ok_text button.
cancel_text = self.paused_continue_text and self.paused_continue_text or _("Continue"),
ok_text = self.paused_abort_text and self.paused_abort_text or _("Abort"),
cancel_callback = function()
coroutine.resume(_coroutine, true)
end,
ok_callback = function()
coroutine.resume(_coroutine, false)
end,
-- flush any pending tap, so past events won't be considered
-- action on the yet to be displayed widget
flush_events_on_show = true,
}
UIManager:show(abort_box)
-- no need to forceRePaint, UIManager will do it when we yield()
go_on = coroutine.yield() -- abort_box ok/cancel from their coroutine.resume()
UIManager:close(abort_box)
if not go_on then
UIManager:close(self.current_widget)
UIManager:forceRePaint()
return false
end
if self.current_widget then
-- Resurect a dead widget. This should only be performed by trained Necromancers.
-- Do NOT do this at home, kids.
-- Some state *might* be lost, but the basics should survive...
self.current_widget:init()
UIManager:show(self.current_widget)
end
UIManager:forceRePaint()
end
-- go_on_func returned result = true, or abort_box did not abort:
-- continue processing
end
-- If fast_refresh option, avoid UIManager refresh overhead
if fast_refresh and self.current_widget and self.current_widget.is_infomessage then
local orig_moved_offset = self.current_widget.movable:getMovedOffset()
self.current_widget:free()
self.current_widget.text = text
self.current_widget:init()
self.current_widget.movable:setMovedOffset(orig_moved_offset)
local Screen = require("device").screen
self.current_widget:paintTo(Screen.bb, 0, 0)
local d = self.current_widget[1][1].dimen
Screen.refreshUI(Screen, d.x, d.y, d.w, d.h)
else
-- We're going to display a new widget, close previous one
if self.current_widget then
UIManager:close(self.current_widget)
-- no repaint here, we'll do that below when a new one is shown
end
-- dismiss_callback will be checked for at start of next call
self.current_widget = InfoMessage:new{
text = text,
dismiss_callback = function()
coroutine.resume(_coroutine, false)
end,
is_infomessage = true, -- flag on our InfoMessages
-- flush any pending tap, so past events won't be considered
-- action on the yet to be displayed widget
flush_events_on_show = true,
}
logger.dbg("Showing InfoMessage:", text)
UIManager:show(self.current_widget)
UIManager:forceRePaint()
end
return true
end
--[[--
Overrides text and button texts on the Paused ConfirmBox.
A ConfirmBox is displayed when an InfoMessage is dismissed
in Trapper:info(), with default text "Paused", and default
buttons "Abort" and "Continue".
@string text ConfirmBox text (default: "Paused")
@string abort_text ConfirmBox "Abort" button text (Trapper:info() returns false)
@string continue_text ConfirmBox "Continue" button text
]]
function Trapper:setPausedText(text, abort_text, continue_text)
if self:isWrapped() then
self.paused_text = text
self.paused_abort_text = abort_text
self.paused_continue_text = continue_text
end
end
--[[--
Displays a ConfirmBox and gets user's choice.
Display a ConfirmBox with the text and cancel_text/ok_text buttons,
block and wait for user's choice, and return the choice made:
false if Cancel tapped or dismissed, true if OK tapped
@string text text to display in a ConfirmBox
@string cancel_text text for ConfirmBox Cancel button
@string ok_text text for ConfirmBox Ok button
@treturn boolean false if Cancel tapped or dismissed, true if OK tapped
@usage
go_on = Trapper:confirm("Do you want to go on?")
that_selected = Trapper:confirm("Do you want to do this or that?", "this", "that"))
]]
function Trapper:confirm(text, cancel_text, ok_text)
-- With ConfirmBox, Cancel button is on the left, OK button on the right,
-- so buttons order is consistent with this function args
local _coroutine = coroutine.running()
if not _coroutine then
logger.info("unwrapped confirm, returning true to:", text)
return true -- always select "OK" in ConfirmBox if no UI
end
-- Close any previous widget
if self.current_widget then
UIManager:close(self.current_widget)
-- no repaint here, we'll do that below when a new one is shown
end
-- We will yield(), and both callbacks will resume() us
self.current_widget = ConfirmBox:new{
text = text,
ok_text = ok_text,
cancel_text = cancel_text,
cancel_callback = function()
coroutine.resume(_coroutine, false)
end,
ok_callback = function()
coroutine.resume(_coroutine, true)
end,
-- flush any pending tap, so past events won't be considered
-- action on the yet to be displayed widget
flush_events_on_show = true,
}
logger.dbg("Showing ConfirmBox and waiting for answer:", text)
UIManager:show(self.current_widget)
-- no need to forceRePaint, UIManager will do it when we yield()
local ret = coroutine.yield() -- wait for ConfirmBox callback
logger.dbg("ConfirmBox answers", ret)
return ret
end
--[[--
Dismissable wrapper for @{io.popen|io.popen(`cmd`)}.
Notes and limitations:
1) It is dismissable as long as `cmd` as not yet output anything.
Once output has started, the reading will block till it is done.
(Some shell tricks, included in `cmd`, could probably be used to
accumulate `cmd` output in some variable, and to output the whole
variable to stdout at the end.)
2) `cmd` needs to output something (we will wait till some data is available)
If there are chances for it to not output anything, append `"; echo"` to `cmd`
3) We need a @{ui.widget.trapwidget|TrapWidget} or @{ui.widget.infomessage|InfoMessage},
that, as a modal, will catch any @{ui.event|Tap event} happening during
`cmd` execution. This can be an existing already displayed widget, or
provided as a string (a new TrapWidget will be created). If nil, true or false,
an invisible TrapWidget will be used instead (if nil or true, the event will be
resent; if false, the event will not be resent).
If we really need to have more control, we would need to use `select()` via `ffi`
or do low level non-blocking reading on the file descriptor.
If there are `cmd` that may not exit, that we would be trying to
collect indefinitely, the best option would be to compile any `timeout.c`
and use it as a wrapper.
@string cmd shell `cmd` to execute and get output from
@param trap_widget_or_string already shown widget, string, or nil, true or false
@treturn boolean completed (`true` if not interrupted, `false` if dismissed)
@treturn string output of command
]]
function Trapper:dismissablePopen(cmd, trap_widget_or_string)
local _coroutine = coroutine.running()
-- assert(_coroutine ~= nil, "Need to be called from a coroutine")
if not _coroutine then
logger.warn("unwrapped dismissablePopen(), falling back to blocking io.popen()")
local std_out = io.popen(cmd, "r")
if std_out then
local output = std_out:read("*all")
std_out:close()
return true, output
end
return false
end
local trap_widget
local own_trap_widget = false
local own_trap_widget_invisible = false
if type(trap_widget_or_string) == "table" then
-- Assume it is a usable already displayed trap'able widget with
-- a dismiss_callback (ie: InfoMessage or TrapWidget)
trap_widget = trap_widget_or_string
else
if type(trap_widget_or_string) == "string" then
-- Use a TrapWidget with this as text
trap_widget = TrapWidget:new{
text = trap_widget_or_string,
}
UIManager:show(trap_widget)
UIManager:forceRePaint()
else
-- Use an invisible TrapWidget that resend event, but not if
-- trap_widget_or_string is false (rather than nil or true)
local resend_event = true
if trap_widget_or_string == false then
resend_event = false
end
trap_widget = TrapWidget:new{
text = nil,
resend_event = resend_event,
}
UIManager:show(trap_widget)
own_trap_widget_invisible = true
end
own_trap_widget = true
end
trap_widget.dismiss_callback = function()
-- this callback will resume us at coroutine.yield() below
-- with a go_on = false
coroutine.resume(_coroutine, false)
end
local collect_interval_sec = 5 -- collect cancelled cmd every 5 second, no hurry
local check_interval_sec = 0.125 -- start with checking for output every 125ms
local check_num = 0
local completed = false
local output = nil
local std_out = io.popen(cmd, "r")
if std_out then
-- We check regularly if data is available to be read, and we give control
-- in the meantime to UIManager so our trap_widget's dismiss_callback
-- get a chance to be triggered, in which case we won't wait for reading,
-- We'll schedule a background function to collect the uneeded output and
-- close the pipe later.
while true do
-- Every 10 iterations, increase interval until a max of 1 sec is reached
check_num = check_num + 1
if check_interval_sec < 1 and check_num % 10 == 0 then
check_interval_sec = math.min(check_interval_sec * 2, 1)
end
-- The following function will resume us at coroutine.yield() below
-- with a go_on = true
local go_on_func = function() coroutine.resume(_coroutine, true) end
UIManager:scheduleIn(check_interval_sec, go_on_func) -- called in 100ms by default
local go_on = coroutine.yield() -- gives control back to UIManager
if not go_on then -- the dismiss_callback resumed us
UIManager:unschedule(go_on_func)
-- We forget cmd here, but something has to collect
-- its output and close the pipe to not leak file handles and
-- zombie processes.
local collect_and_clean
collect_and_clean = function()
if ffiutil.getNonBlockingReadSize(std_out) ~= 0 then -- cmd started outputing
std_out:read("*all")
std_out:close()
logger.dbg("collected cancelled cmd output")
else -- no output yet, reschedule
UIManager:scheduleIn(collect_interval_sec, collect_and_clean)
logger.dbg("cancelled cmd output not yet collectable")
end
end
UIManager:scheduleIn(collect_interval_sec, collect_and_clean)
break
end
-- The go_on_func resumed us: we have not been dismissed.
-- Check if pipe is ready to be read
if ffiutil.getNonBlockingReadSize(std_out) ~= 0 then
-- Some data is available for reading: read it all,
-- but we may block from now on
output = std_out:read("*all")
std_out:close()
completed = true
break
end
-- logger.dbg("no cmd output yet, will check again soon")
end
end
if own_trap_widget then
-- Remove our own trap_widget
UIManager:close(trap_widget)
if not own_trap_widget_invisible then
UIManager:forceRePaint()
end
end
-- return what we got or not to our caller
return completed, output
end
--[[--
Run a function (task) in a sub-process, allowing it to be dismissed,
and returns its return value(s).
Notes and limitations:
1) As function is run in a sub-process, it can't modify the main
KOReader process (its parent). It has access to the state of
KOReader at the time the sub-process was started. It should not
use any service/driver that would make the parent process vision
of the device state incoherent (ie: it should not use UIManager,
display widgets, change settings, enable wifi...).
It is allowed to modify the filesystem, as long as KOreader
has not a cached vision of this filesystem part.
Its returned value(s) are returned to the parent.
2) task may return complex data structures (but with simple lua types,
no function) or a single string. If task returns a string or nil,
set task_returns_simple_string to true, allowing for some
optimisations to be made.
3) If dismissed, the sub-process is killed with SIGKILL, and
task is aborted without any chance for cleanup work: use of temporary
files should so be limited (do some cleanup of dirty files from
previous aborted executions at the start of each new execution if
needed), and try to keep important operations as atomic as possible.
4) We need a @{ui.widget.trapwidget|TrapWidget} or @{ui.widget.infomessage|InfoMessage},
that, as a modal, will catch any @{ui.event|Tap event} happening during
`cmd` execution. This can be an existing already displayed widget, or
provided as a string (a new TrapWidget will be created). If nil, true or false,
an invisible TrapWidget will be used instead (if nil or true, the event will be
resent; if false, the event will not be resent).
@param task lua function to execute and get return values from
@param trap_widget_or_string already shown widget, string, or nil, true or false
@boolean task_returns_simple_string[opt=false] true if task returns a single string
@treturn boolean completed (`true` if not interrupted, `false` if dismissed)
@return ... return values of task
]]
function Trapper:dismissableRunInSubprocess(task, trap_widget_or_string, task_returns_simple_string)
local _coroutine = coroutine.running()
if not _coroutine then
logger.warn("unwrapped dismissableRunInSubprocess(), falling back to blocking in-process run")
return true, task()
end
local trap_widget
local own_trap_widget = false
local own_trap_widget_invisible = false
if type(trap_widget_or_string) == "table" then
-- Assume it is a usable already displayed trap'able widget with
-- a dismiss_callback (ie: InfoMessage or TrapWidget)
trap_widget = trap_widget_or_string
else
if type(trap_widget_or_string) == "string" then
-- Use a TrapWidget with this as text
trap_widget = TrapWidget:new{
text = trap_widget_or_string,
}
UIManager:show(trap_widget)
UIManager:forceRePaint()
else
-- Use an invisible TrapWidget that resend event, but not if
-- trap_widget_or_string is false (rather than nil or true)
local resend_event = true
if trap_widget_or_string == false then
resend_event = false
end
trap_widget = TrapWidget:new{
text = nil,
resend_event = resend_event,
}
UIManager:show(trap_widget)
own_trap_widget_invisible = true
end
own_trap_widget = true
end
trap_widget.dismiss_callback = function()
-- this callback will resume us at coroutine.yield() below
-- with a go_on = false
coroutine.resume(_coroutine, false)
end
local collect_interval_sec = 5 -- collect cancelled cmd every 5 second, no hurry
local check_interval_sec = 0.125 -- start with checking for output every 125ms
local check_num = 0
local completed = false
local ret_values
local pid, parent_read_fd = ffiutil.runInSubProcess(function(pid, child_write_fd)
local output_str = ""
if task_returns_simple_string then
-- task is assumed to return only a string or nil,
-- so avoid a possibly expensive ser/deser roundtrip.
local result = task()
if type(result) == "string" then
output_str = result
elseif result ~= nil then
logger.warn("returned value from task is not a string:", result)
end
else
-- task may return complex data structures, that we serialize.
-- NOTE: LuaJIT's serializer currently doesn't support:
-- functions, coroutines, non-numerical FFI cdata & full userdata.
local results = table.pack(task())
local ok, str = pcall(buffer.encode, results)
if not ok then
logger.warn("cannot serialize", tostring(results), "->", str)
else
output_str = str
end
end
ffiutil.writeToFD(child_write_fd, output_str, true)
end, true) -- with_pipe = true
if pid then
-- We check regularly if subprocess is done, and we give control
-- in the meantime to UIManager so our trap_widget's dismiss_callback
-- get a chance to be triggered, in which case we'll terminate the
-- subprocess and schedule a background function to collect it.
while true do
-- Every 10 iterations, increase interval until a max of 1 sec is reached
check_num = check_num + 1
if check_interval_sec < 1 and check_num % 10 == 0 then
check_interval_sec = math.min(check_interval_sec * 2, 1)
end
-- The following function will resume us at coroutine.yield() below
-- with a go_on = true
local go_on_func = function() coroutine.resume(_coroutine, true) end
UIManager:scheduleIn(check_interval_sec, go_on_func) -- called in 100ms by default
local go_on = coroutine.yield() -- gives control back to UIManager
if not go_on then -- the dismiss_callback resumed us
UIManager:unschedule(go_on_func)
-- We kill and forget the sub-process here, but something has
-- to collect it so it does not become a zombie
ffiutil.terminateSubProcess(pid)
local collect_and_clean
collect_and_clean = function()
if ffiutil.isSubProcessDone(pid) then
if parent_read_fd then
ffiutil.readAllFromFD(parent_read_fd) -- close it
end
logger.dbg("collected previously dismissed subprocess")
else
if parent_read_fd and ffiutil.getNonBlockingReadSize(parent_read_fd) ~= 0 then
-- If subprocess started outputing to fd, read from it,
-- so its write() stops blocking and subprocess can exit
ffiutil.readAllFromFD(parent_read_fd)
-- We closed our fd, don't try again to read or close it
parent_read_fd = nil
end
-- reschedule to collect it
UIManager:scheduleIn(collect_interval_sec, collect_and_clean)
logger.dbg("previously dismissed subprocess not yet collectable")
end
end
UIManager:scheduleIn(collect_interval_sec, collect_and_clean)
break
end
-- The go_on_func resumed us: we have not been dismissed.
-- Check if sub process has ended
-- Depending on the size of what the child has to write,
-- it may has ended (if data fits in the kernel pipe buffer) or
-- it may still be alive blocking on write() (if data exceeds
-- the kernel pipe buffer)
local subprocess_done = ffiutil.isSubProcessDone(pid)
local stuff_to_read = parent_read_fd and ffiutil.getNonBlockingReadSize(parent_read_fd) ~= 0
logger.dbg("subprocess_done:", subprocess_done, " stuff_to_read:", stuff_to_read)
if subprocess_done or stuff_to_read then
-- Subprocess is gone or nearly gone
completed = true
if stuff_to_read then
local ret_str = ffiutil.readAllFromFD(parent_read_fd)
if task_returns_simple_string then
ret_values = ret_str
else
local ok, t = pcall(buffer.decode, ret_str)
if ok and t then
ret_values = t
else
logger.warn("malformed serialized data:", t)
end
end
if not subprocess_done then
-- We read the output while process was still alive.
-- It may be dead now, or it may exit soon, and we
-- need to collect it.
-- Schedule that in 1 second (it should be dead), so
-- we can return our result now.
local collect_and_clean
collect_and_clean = function()
if ffiutil.isSubProcessDone(pid) then
logger.dbg("collected subprocess")
else -- reschedule
UIManager:scheduleIn(1, collect_and_clean)
logger.dbg("subprocess not yet collectable")
end
end
UIManager:scheduleIn(1, collect_and_clean)
end
else -- subprocess_done: process exited with no output
ffiutil.readAllFromFD(parent_read_fd) -- close our fd
-- no ret_values
end
break
end
logger.dbg("process not yet done, will check again soon")
end
end
if own_trap_widget then
-- Remove our own trap_widget
UIManager:close(trap_widget)
if not own_trap_widget_invisible then
UIManager:forceRePaint()
end
end
-- return what we got or not to our caller
if ret_values then
if task_returns_simple_string then
return completed, ret_values
else
return completed, unpack(ret_values, 1, ret_values.n)
end
end
return completed
end
return Trapper