virt-manager/virtManager/asyncjob.py

330 lines
10 KiB
Python

# Copyright (C) 2006, 2013 Red Hat, Inc.
# Copyright (C) 2006 Hugh O. Brock <hbrock@redhat.com>
#
# This work is licensed under the GNU GPLv2 or later.
# See the COPYING file in the top-level directory.
import threading
import traceback
from gi.repository import Gdk
from gi.repository import GLib
import libvirt
import virtinst.progress
from .baseclass import vmmGObjectUI
class vmmMeter(virtinst.progress.BaseMeter):
def __init__(self, cb_pulse, cb_fraction, cb_done):
virtinst.progress.BaseMeter.__init__(self)
self.started = False
self._vmm_pulse = cb_pulse
self._vmm_fraction = cb_fraction
self._vmm_done = cb_done
def _do_start(self, now=None):
text = self.text or self.basename
if self.size is None:
out = " %5sB" % (0)
self._vmm_pulse(out, text)
else:
out = "%3i%% %5sB" % (0, 0)
self._vmm_fraction(0, out, text)
self.started = True
def _do_update(self, amount_read, now=None):
text = self.text or self.basename
fread = virtinst.progress.format_number(amount_read)
if self.size is None: # pragma: no cover
out = " %5sB" % (fread)
self._vmm_pulse(out, text)
else:
frac = self.re.fraction_read()
out = "%3i%% %5sB" % (frac * 100, fread)
self._vmm_fraction(frac, out, text)
def _do_end(self, amount_read, now=None):
text = self.text or self.basename
fread = virtinst.progress.format_number(amount_read)
if self.size is None:
out = " %5sB" % (fread)
self._vmm_pulse(out, text)
else:
out = "%3i%% %5sB" % (100, fread)
self._vmm_done(out, text)
self.started = False
def cb_wrapper(callback, asyncjob, *args, **kwargs):
try:
callback(asyncjob, *args, **kwargs)
except Exception as e:
# If job is cancelled, don't report error to user.
if (isinstance(e, libvirt.libvirtError) and
asyncjob.can_cancel() and
asyncjob.job_canceled):
return # pragma: no cover
asyncjob.set_error(str(e), "".join(traceback.format_exc()))
def _simple_async_done_cb(error, details,
parent, errorintro, errorcb, finish_cb):
if error:
if errorcb:
errorcb(error, details)
else:
error = errorintro + ": " + error
parent.err.show_err(error,
details=details)
if finish_cb:
finish_cb()
def _simple_async(callback, args, parent, title, text, errorintro,
show_progress, simplecb, errorcb, finish_cb):
"""
@show_progress: Whether to actually show a progress dialog
@simplecb: If true, build a callback wrapper that ignores the asyncjob
param that's passed to every cb by default
"""
docb = callback
if simplecb:
def tmpcb(job, *args, **kwargs):
ignore = job
callback(*args, **kwargs)
docb = tmpcb
asyncjob = vmmAsyncJob(docb, args,
_simple_async_done_cb,
(parent, errorintro, errorcb, finish_cb),
title, text, parent.topwin,
show_progress=show_progress)
asyncjob.run()
def idle_wrapper(fn):
def wrapped(self, *args, **kwargs):
return self.idle_add(fn, self, *args, **kwargs)
return wrapped
class vmmAsyncJob(vmmGObjectUI):
"""
Displays a progress bar while executing the "callback" method.
"""
@staticmethod
def simple_async(callback, args, parent, title, text, errorintro,
simplecb=True, errorcb=None, finish_cb=None):
_simple_async(callback, args, parent,
title, text, errorintro, True,
simplecb, errorcb, finish_cb)
@staticmethod
def simple_async_noshow(callback, args, parent, errorintro,
simplecb=True, errorcb=None, finish_cb=None):
_simple_async(callback, args, parent,
"", "", errorintro, False,
simplecb, errorcb, finish_cb)
def __init__(self,
callback, args, finish_cb, finish_args,
title, text, parent,
show_progress=True, cancel_cb=None):
"""
@show_progress: If False, don't actually show a progress dialog
@cancel_cb: Cancel callback if operation supports it.
(cb, arg1, arg2, ...)
"""
vmmGObjectUI.__init__(self, "asyncjob.ui", "vmm-progress")
self.topwin.set_transient_for(parent)
self.show_progress = bool(show_progress)
cancel_cb = cancel_cb or (None, [])
self.cancel_cb = cancel_cb[0]
self.cancel_args = [self] + list(cancel_cb[1:])
self.job_canceled = False
self._finish_cb = finish_cb
self._finish_args = finish_args or ()
self._timer = None
self._error_info = None
self._data = None
self._details_widget = None
self._details_update_cb = None
self._is_pulsing = True
self._meter = None
self._bg_thread = threading.Thread(target=cb_wrapper,
args=[callback, self] + args)
self._bg_thread.daemon = True
self.builder.connect_signals({
"on_async_job_cancel_clicked": self._on_cancel,
})
# UI state
self.topwin.set_title(title)
self.widget("pbar-text").set_text(text)
self.widget("cancel-async-job").set_visible(bool(self.cancel_cb))
####################
# Internal helpers #
####################
def _cleanup(self):
self._bg_thread = None
self.cancel_cb = None
self.cancel_args = None
self._meter = None
def _set_stage_text(self, text, canceling=False):
# This should be thread safe, since it's only ever called from
# pbar idle callbacks and cancel routine which is invoked from the
# main thread
if self.job_canceled and not canceling:
return # pragma: no cover
self.widget("pbar-stage").set_text(text)
################
# UI listeners #
################
def _on_cancel(self, ignore1=None, ignore2=None):
if not self.cancel_cb or not self._bg_thread.is_alive():
return # pragma: no cover
self.cancel_cb(*self.cancel_args)
if self.job_canceled: # pragma: no cover
self.widget("warning-box").hide()
self._set_stage_text(_("Cancelling job..."), canceling=True)
##############
# Public API #
##############
def get_meter(self):
if not self._meter:
self._meter = vmmMeter(self._pbar_pulse,
self._pbar_fraction,
self._pbar_done)
return self._meter
def set_error(self, error, details):
self._error_info = (error, details)
def has_error(self):
return bool(self._error_info)
def can_cancel(self):
return bool(self.cancel_cb)
def show_warning(self, summary):
# This should only be called from cancel callbacks, not a the thread
markup = "<small>%s</small>" % summary
self.widget("warning-box").show()
self.widget("warning-text").set_markup(markup)
def _thread_finished(self):
GLib.source_remove(self._timer)
self.topwin.destroy()
self.cleanup()
error = None
details = None
if self._error_info:
# pylint: disable=unpacking-non-sequence
error, details = self._error_info
self._finish_cb(error, details, *self._finish_args)
def run(self):
self._timer = GLib.timeout_add(100, self._exit_if_necessary)
if self.show_progress:
self.topwin.present()
if not self.cancel_cb and self.show_progress:
gdk_window = self.topwin.get_window()
gdk_window.set_cursor(
Gdk.Cursor.new_from_name(gdk_window.get_display(), "progress"))
self._bg_thread.start()
####################################################################
# All functions after this point are called from the timer loop or #
# the worker thread, so anything that touches Gtk needs to be #
# dispatches with idle_add #
####################################################################
def _exit_if_necessary(self):
if not self._bg_thread.is_alive():
self._thread_finished()
return False
if not self._is_pulsing or not self.show_progress:
return True
self._pbar_do_pulse()
return True
@idle_wrapper
def _pbar_do_pulse(self):
if not self.builder:
return # pragma: no cover
self.widget("pbar").pulse()
@idle_wrapper
def _pbar_pulse(self, progress="", stage=None):
self._is_pulsing = True
if not self.builder:
return # pragma: no cover
self.widget("pbar").set_text(progress)
self._set_stage_text(stage or _("Processing..."))
@idle_wrapper
def _pbar_fraction(self, frac, progress, stage=None):
self._is_pulsing = False
if not self.builder:
return # pragma: no cover
self._set_stage_text(stage or _("Processing..."))
self.widget("pbar").set_text(progress)
frac = min(frac, 1)
frac = max(frac, 0)
self.widget("pbar").set_fraction(frac)
@idle_wrapper
def _pbar_done(self, progress, stage=None):
self._is_pulsing = False
if not self.builder:
return # pragma: no cover
self._set_stage_text(stage or _("Completed"))
self.widget("pbar").set_text(progress)
self.widget("pbar").set_fraction(1)
@idle_wrapper
def details_enable(self):
from gi.repository import Vte
self._details_widget = Vte.Terminal()
self.widget("details-box").add(self._details_widget)
self._details_widget.set_visible(True)
self.widget("details").set_visible(True)
@idle_wrapper
def details_update(self, data):
self._details_widget.feed(data.replace("\n", "\r\n").encode())