diff --git a/bitbake/lib/bb/ui/crumbs/buildmanager.py b/bitbake/lib/bb/ui/crumbs/buildmanager.py deleted file mode 100644 index e858d75e4c..0000000000 --- a/bitbake/lib/bb/ui/crumbs/buildmanager.py +++ /dev/null @@ -1,455 +0,0 @@ -# -# BitBake Graphical GTK User Interface -# -# Copyright (C) 2008 Intel Corporation -# -# Authored by Rob Bradford -# -# This program is free software; you can redistribute it and/or modify -# it under the terms of the GNU General Public License version 2 as -# published by the Free Software Foundation. -# -# This program is distributed in the hope that it will be useful, -# but WITHOUT ANY WARRANTY; without even the implied warranty of -# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -# GNU General Public License for more details. -# -# You should have received a copy of the GNU General Public License along -# with this program; if not, write to the Free Software Foundation, Inc., -# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. - -import gtk -import gobject -import threading -import os -import datetime -import time - -class BuildConfiguration: - """ Represents a potential *or* historic *or* concrete build. It - encompasses all the things that we need to tell bitbake to do to make it - build what we want it to build. - - It also stored the metadata URL and the set of possible machines (and the - distros / images / uris for these. Apart from the metdata URL these are - not serialised to file (since they may be transient). In some ways this - functionality might be shifted to the loader class.""" - - def __init__ (self): - self.metadata_url = None - - # Tuple of (distros, image, urls) - self.machine_options = {} - - self.machine = None - self.distro = None - self.image = None - self.urls = [] - self.extra_urls = [] - self.extra_pkgs = [] - - def get_machines_model (self): - model = gtk.ListStore (gobject.TYPE_STRING) - for machine in self.machine_options.keys(): - model.append ([machine]) - - return model - - def get_distro_and_images_models (self, machine): - distro_model = gtk.ListStore (gobject.TYPE_STRING) - - for distro in self.machine_options[machine][0]: - distro_model.append ([distro]) - - image_model = gtk.ListStore (gobject.TYPE_STRING) - - for image in self.machine_options[machine][1]: - image_model.append ([image]) - - return (distro_model, image_model) - - def get_repos (self): - self.urls = self.machine_options[self.machine][2] - return self.urls - - # It might be a lot lot better if we stored these in like, bitbake conf - # file format. - @staticmethod - def load_from_file (filename): - - conf = BuildConfiguration() - with open(filename, "r") as f: - for line in f: - data = line.split (";")[1] - if (line.startswith ("metadata-url;")): - conf.metadata_url = data.strip() - continue - if (line.startswith ("url;")): - conf.urls += [data.strip()] - continue - if (line.startswith ("extra-url;")): - conf.extra_urls += [data.strip()] - continue - if (line.startswith ("machine;")): - conf.machine = data.strip() - continue - if (line.startswith ("distribution;")): - conf.distro = data.strip() - continue - if (line.startswith ("image;")): - conf.image = data.strip() - continue - - return conf - - # Serialise to a file. This is part of the build process and we use this - # to be able to repeat a given build (using the same set of parameters) - # but also so that we can include the details of the image / machine / - # distro in the build manager tree view. - def write_to_file (self, filename): - f = open (filename, "w") - - lines = [] - - if (self.metadata_url): - lines += ["metadata-url;%s\n" % (self.metadata_url)] - - for url in self.urls: - lines += ["url;%s\n" % (url)] - - for url in self.extra_urls: - lines += ["extra-url;%s\n" % (url)] - - if (self.machine): - lines += ["machine;%s\n" % (self.machine)] - - if (self.distro): - lines += ["distribution;%s\n" % (self.distro)] - - if (self.image): - lines += ["image;%s\n" % (self.image)] - - f.writelines (lines) - f.close () - -class BuildResult(gobject.GObject): - """ Represents an historic build. Perhaps not successful. But it includes - things such as the files that are in the directory (the output from the - build) as well as a deserialised BuildConfiguration file that is stored in - ".conf" in the directory for the build. - - This is GObject so that it can be included in the TreeStore.""" - - (STATE_COMPLETE, STATE_FAILED, STATE_ONGOING) = \ - (0, 1, 2) - - def __init__ (self, parent, identifier): - gobject.GObject.__init__ (self) - self.date = None - - self.files = [] - self.status = None - self.identifier = identifier - self.path = os.path.join (parent, identifier) - - # Extract the date, since the directory name is of the - # format build-- we can easily - # pull it out. - # TODO: Better to stat a file? - (_, date, revision) = identifier.split ("-") - print(date) - - year = int (date[0:4]) - month = int (date[4:6]) - day = int (date[6:8]) - - self.date = datetime.date (year, month, day) - - self.conf = None - - # By default builds are STATE_FAILED unless we find a "complete" file - # in which case they are STATE_COMPLETE - self.state = BuildResult.STATE_FAILED - for file in os.listdir (self.path): - if (file.startswith (".conf")): - conffile = os.path.join (self.path, file) - self.conf = BuildConfiguration.load_from_file (conffile) - elif (file.startswith ("complete")): - self.state = BuildResult.STATE_COMPLETE - else: - self.add_file (file) - - def add_file (self, file): - # Just add the file for now. Don't care about the type. - self.files += [(file, None)] - -class BuildManagerModel (gtk.TreeStore): - """ Model for the BuildManagerTreeView. This derives from gtk.TreeStore - but it abstracts nicely what the columns mean and the setup of the columns - in the model. """ - - (COL_IDENT, COL_DESC, COL_MACHINE, COL_DISTRO, COL_BUILD_RESULT, COL_DATE, COL_STATE) = \ - (0, 1, 2, 3, 4, 5, 6) - - def __init__ (self): - gtk.TreeStore.__init__ (self, - gobject.TYPE_STRING, - gobject.TYPE_STRING, - gobject.TYPE_STRING, - gobject.TYPE_STRING, - gobject.TYPE_OBJECT, - gobject.TYPE_INT64, - gobject.TYPE_INT) - -class BuildManager (gobject.GObject): - """ This class manages the historic builds that have been found in the - "results" directory but is also used for starting a new build.""" - - __gsignals__ = { - 'population-finished' : (gobject.SIGNAL_RUN_LAST, - gobject.TYPE_NONE, - ()), - 'populate-error' : (gobject.SIGNAL_RUN_LAST, - gobject.TYPE_NONE, - ()) - } - - def update_build_result (self, result, iter): - # Convert the date into something we can sort by. - date = long (time.mktime (result.date.timetuple())) - - # Add a top level entry for the build - - self.model.set (iter, - BuildManagerModel.COL_IDENT, result.identifier, - BuildManagerModel.COL_DESC, result.conf.image, - BuildManagerModel.COL_MACHINE, result.conf.machine, - BuildManagerModel.COL_DISTRO, result.conf.distro, - BuildManagerModel.COL_BUILD_RESULT, result, - BuildManagerModel.COL_DATE, date, - BuildManagerModel.COL_STATE, result.state) - - # And then we use the files in the directory as the children for the - # top level iter. - for file in result.files: - self.model.append (iter, (None, file[0], None, None, None, date, -1)) - - # This function is called as an idle by the BuildManagerPopulaterThread - def add_build_result (self, result): - gtk.gdk.threads_enter() - self.known_builds += [result] - - self.update_build_result (result, self.model.append (None)) - - gtk.gdk.threads_leave() - - def notify_build_finished (self): - # This is a bit of a hack. If we have a running build running then we - # will have a row in the model in STATE_ONGOING. Find it and make it - # as if it was a proper historic build (well, it is completed now....) - - # We need to use the iters here rather than the Python iterator - # interface to the model since we need to pass it into - # update_build_result - - iter = self.model.get_iter_first() - - while (iter): - (ident, state) = self.model.get(iter, - BuildManagerModel.COL_IDENT, - BuildManagerModel.COL_STATE) - - if state == BuildResult.STATE_ONGOING: - result = BuildResult (self.results_directory, ident) - self.update_build_result (result, iter) - iter = self.model.iter_next(iter) - - def notify_build_succeeded (self): - # Write the "complete" file so that when we create the BuildResult - # object we put into the model - - complete_file_path = os.path.join (self.cur_build_directory, "complete") - f = file (complete_file_path, "w") - f.close() - self.notify_build_finished() - - def notify_build_failed (self): - # Without a "complete" file then this will mark the build as failed: - self.notify_build_finished() - - # This function is called as an idle - def emit_population_finished_signal (self): - gtk.gdk.threads_enter() - self.emit ("population-finished") - gtk.gdk.threads_leave() - - class BuildManagerPopulaterThread (threading.Thread): - def __init__ (self, manager, directory): - threading.Thread.__init__ (self) - self.manager = manager - self.directory = directory - - def run (self): - # For each of the "build-<...>" directories .. - - if os.path.exists (self.directory): - for directory in os.listdir (self.directory): - - if not directory.startswith ("build-"): - continue - - build_result = BuildResult (self.directory, directory) - self.manager.add_build_result (build_result) - - gobject.idle_add (BuildManager.emit_population_finished_signal, - self.manager) - - def __init__ (self, server, results_directory): - gobject.GObject.__init__ (self) - - # The builds that we've found from walking the result directory - self.known_builds = [] - - # Save out the bitbake server, we need this for issuing commands to - # the cooker: - self.server = server - - # The TreeStore that we use - self.model = BuildManagerModel () - - # The results directory is where we create (and look for) the - # build-- directories. We need to populate ourselves from - # directory - self.results_directory = results_directory - self.populate_from_directory (self.results_directory) - - def populate_from_directory (self, directory): - thread = BuildManager.BuildManagerPopulaterThread (self, directory) - thread.start() - - # Come up with the name for the next build ident by combining "build-" - # with the date formatted as yyyymmdd and then an ordinal. We do this by - # an optimistic algorithm incrementing the ordinal if we find that it - # already exists. - def get_next_build_ident (self): - today = datetime.date.today () - datestr = str (today.year) + str (today.month) + str (today.day) - - revision = 0 - test_name = "build-%s-%d" % (datestr, revision) - test_path = os.path.join (self.results_directory, test_name) - - while (os.path.exists (test_path)): - revision += 1 - test_name = "build-%s-%d" % (datestr, revision) - test_path = os.path.join (self.results_directory, test_name) - - return test_name - - # Take a BuildConfiguration and then try and build it based on the - # parameters of that configuration. S - def do_build (self, conf): - server = self.server - - # Work out the build directory. Note we actually create the - # directories here since we need to write the ".conf" file. Otherwise - # we could have relied on bitbake's builder thread to actually make - # the directories as it proceeds with the build. - ident = self.get_next_build_ident () - build_directory = os.path.join (self.results_directory, - ident) - self.cur_build_directory = build_directory - os.makedirs (build_directory) - - conffile = os.path.join (build_directory, ".conf") - conf.write_to_file (conffile) - - # Add a row to the model representing this ongoing build. It's kinda a - # fake entry. If this build completes or fails then this gets updated - # with the real stuff like the historic builds - date = long (time.time()) - self.model.append (None, (ident, conf.image, conf.machine, conf.distro, - None, date, BuildResult.STATE_ONGOING)) - try: - server.runCommand(["setVariable", "BUILD_IMAGES_FROM_FEEDS", 1]) - server.runCommand(["setVariable", "MACHINE", conf.machine]) - server.runCommand(["setVariable", "DISTRO", conf.distro]) - server.runCommand(["setVariable", "PACKAGE_CLASSES", "package_ipk"]) - server.runCommand(["setVariable", "BBFILES", \ - """${OEROOT}/meta/packages/*/*.bb ${OEROOT}/meta-moblin/packages/*/*.bb"""]) - server.runCommand(["setVariable", "TMPDIR", "${OEROOT}/build/tmp"]) - server.runCommand(["setVariable", "IPK_FEED_URIS", \ - " ".join(conf.get_repos())]) - server.runCommand(["setVariable", "DEPLOY_DIR_IMAGE", - build_directory]) - server.runCommand(["buildTargets", [conf.image], "rootfs"]) - - except Exception as e: - print(e) - -class BuildManagerTreeView (gtk.TreeView): - """ The tree view for the build manager. This shows the historic builds - and so forth. """ - - # We use this function to control what goes in the cell since we store - # the date in the model as seconds since the epoch (for sorting) and so we - # need to make it human readable. - def date_format_custom_cell_data_func (self, col, cell, model, iter): - date = model.get (iter, BuildManagerModel.COL_DATE)[0] - datestr = time.strftime("%A %d %B %Y", time.localtime(date)) - cell.set_property ("text", datestr) - - # This format function controls what goes in the cell. We use this to map - # the integer state to a string and also to colourise the text - def state_format_custom_cell_data_fun (self, col, cell, model, iter): - state = model.get (iter, BuildManagerModel.COL_STATE)[0] - - if (state == BuildResult.STATE_ONGOING): - cell.set_property ("text", "Active") - cell.set_property ("foreground", "#000000") - elif (state == BuildResult.STATE_FAILED): - cell.set_property ("text", "Failed") - cell.set_property ("foreground", "#ff0000") - elif (state == BuildResult.STATE_COMPLETE): - cell.set_property ("text", "Complete") - cell.set_property ("foreground", "#00ff00") - else: - cell.set_property ("text", "") - - def __init__ (self): - gtk.TreeView.__init__(self) - - # Misc descriptiony thing - renderer = gtk.CellRendererText () - col = gtk.TreeViewColumn (None, renderer, - text=BuildManagerModel.COL_DESC) - self.append_column (col) - - # Machine - renderer = gtk.CellRendererText () - col = gtk.TreeViewColumn ("Machine", renderer, - text=BuildManagerModel.COL_MACHINE) - self.append_column (col) - - # distro - renderer = gtk.CellRendererText () - col = gtk.TreeViewColumn ("Distribution", renderer, - text=BuildManagerModel.COL_DISTRO) - self.append_column (col) - - # date (using a custom function for formatting the cell contents it - # takes epoch -> human readable string) - renderer = gtk.CellRendererText () - col = gtk.TreeViewColumn ("Date", renderer, - text=BuildManagerModel.COL_DATE) - self.append_column (col) - col.set_cell_data_func (renderer, - self.date_format_custom_cell_data_func) - - # For status. - renderer = gtk.CellRendererText () - col = gtk.TreeViewColumn ("Status", renderer, - text = BuildManagerModel.COL_STATE) - self.append_column (col) - col.set_cell_data_func (renderer, - self.state_format_custom_cell_data_fun) diff --git a/bitbake/lib/bb/ui/puccho.py b/bitbake/lib/bb/ui/puccho.py deleted file mode 100644 index 3ce4590c16..0000000000 --- a/bitbake/lib/bb/ui/puccho.py +++ /dev/null @@ -1,425 +0,0 @@ -# -# BitBake Graphical GTK User Interface -# -# Copyright (C) 2008 Intel Corporation -# -# Authored by Rob Bradford -# -# This program is free software; you can redistribute it and/or modify -# it under the terms of the GNU General Public License version 2 as -# published by the Free Software Foundation. -# -# This program is distributed in the hope that it will be useful, -# but WITHOUT ANY WARRANTY; without even the implied warranty of -# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -# GNU General Public License for more details. -# -# You should have received a copy of the GNU General Public License along -# with this program; if not, write to the Free Software Foundation, Inc., -# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. - -import gtk -import gobject -import gtk.glade -import threading -import urllib2 -import os -import contextlib - -from bb.ui.crumbs.buildmanager import BuildManager, BuildConfiguration -from bb.ui.crumbs.buildmanager import BuildManagerTreeView - -from bb.ui.crumbs.runningbuild import RunningBuild, RunningBuildTreeView - -# The metadata loader is used by the BuildSetupDialog to download the -# available options to populate the dialog -class MetaDataLoader(gobject.GObject): - """ This class provides the mechanism for loading the metadata (the - fetching and parsing) from a given URL. The metadata encompasses details - on what machines are available. The distribution and images available for - the machine and the the uris to use for building the given machine.""" - __gsignals__ = { - 'success' : (gobject.SIGNAL_RUN_LAST, - gobject.TYPE_NONE, - ()), - 'error' : (gobject.SIGNAL_RUN_LAST, - gobject.TYPE_NONE, - (gobject.TYPE_STRING,)) - } - - # We use these little helper functions to ensure that we take the gdk lock - # when emitting the signal. These functions are called as idles (so that - # they happen in the gtk / main thread's main loop. - def emit_error_signal (self, remark): - gtk.gdk.threads_enter() - self.emit ("error", remark) - gtk.gdk.threads_leave() - - def emit_success_signal (self): - gtk.gdk.threads_enter() - self.emit ("success") - gtk.gdk.threads_leave() - - def __init__ (self): - gobject.GObject.__init__ (self) - - class LoaderThread(threading.Thread): - """ This class provides an asynchronous loader for the metadata (by - using threads and signals). This is useful since the metadata may be - at a remote URL.""" - class LoaderImportException (Exception): - pass - - def __init__(self, loader, url): - threading.Thread.__init__ (self) - self.url = url - self.loader = loader - - def run (self): - result = {} - try: - with contextlib.closing (urllib2.urlopen (self.url)) as f: - # Parse the metadata format. The format is.... - # ;|...;|...;|... - for line in f: - components = line.split(";") - if (len (components) < 4): - raise MetaDataLoader.LoaderThread.LoaderImportException - machine = components[0] - distros = components[1].split("|") - images = components[2].split("|") - urls = components[3].split("|") - - result[machine] = (distros, images, urls) - - # Create an object representing this *potential* - # configuration. It can become concrete if the machine, distro - # and image are all chosen in the UI - configuration = BuildConfiguration() - configuration.metadata_url = self.url - configuration.machine_options = result - self.loader.configuration = configuration - - # Emit that we've actually got a configuration - gobject.idle_add (MetaDataLoader.emit_success_signal, - self.loader) - - except MetaDataLoader.LoaderThread.LoaderImportException as e: - gobject.idle_add (MetaDataLoader.emit_error_signal, self.loader, - "Repository metadata corrupt") - except Exception as e: - gobject.idle_add (MetaDataLoader.emit_error_signal, self.loader, - "Unable to download repository metadata") - print(e) - - def try_fetch_from_url (self, url): - # Try and download the metadata. Firing a signal if successful - thread = MetaDataLoader.LoaderThread(self, url) - thread.start() - -class BuildSetupDialog (gtk.Dialog): - RESPONSE_BUILD = 1 - - # A little helper method that just sets the states on the widgets based on - # whether we've got good metadata or not. - def set_configurable (self, configurable): - if (self.configurable == configurable): - return - - self.configurable = configurable - for widget in self.conf_widgets: - widget.set_sensitive (configurable) - - if not configurable: - self.machine_combo.set_active (-1) - self.distribution_combo.set_active (-1) - self.image_combo.set_active (-1) - - # GTK widget callbacks - def refresh_button_clicked (self, button): - # Refresh button clicked. - - url = self.location_entry.get_chars (0, -1) - self.loader.try_fetch_from_url(url) - - def repository_entry_editable_changed (self, entry): - if (len (entry.get_chars (0, -1)) > 0): - self.refresh_button.set_sensitive (True) - else: - self.refresh_button.set_sensitive (False) - self.clear_status_message() - - # If we were previously configurable we are no longer since the - # location entry has been changed - self.set_configurable (False) - - def machine_combo_changed (self, combobox): - active_iter = combobox.get_active_iter() - - if not active_iter: - return - - model = combobox.get_model() - - if model: - chosen_machine = model.get (active_iter, 0)[0] - - (distros_model, images_model) = \ - self.loader.configuration.get_distro_and_images_models (chosen_machine) - - self.distribution_combo.set_model (distros_model) - self.image_combo.set_model (images_model) - - # Callbacks from the loader - def loader_success_cb (self, loader): - self.status_image.set_from_icon_name ("info", - gtk.ICON_SIZE_BUTTON) - self.status_image.show() - self.status_label.set_label ("Repository metadata successfully downloaded") - - # Set the models on the combo boxes based on the models generated from - # the configuration that the loader has created - - # We just need to set the machine here, that then determines the - # distro and image options. Cunning huh? :-) - - self.configuration = self.loader.configuration - model = self.configuration.get_machines_model () - self.machine_combo.set_model (model) - - self.set_configurable (True) - - def loader_error_cb (self, loader, message): - self.status_image.set_from_icon_name ("error", - gtk.ICON_SIZE_BUTTON) - self.status_image.show() - self.status_label.set_text ("Error downloading repository metadata") - for widget in self.conf_widgets: - widget.set_sensitive (False) - - def clear_status_message (self): - self.status_image.hide() - self.status_label.set_label ( - """Enter the repository location and press _Refresh""") - - def __init__ (self): - gtk.Dialog.__init__ (self) - - # Cancel - self.add_button (gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL) - - # Build - button = gtk.Button ("_Build", None, True) - image = gtk.Image () - image.set_from_stock (gtk.STOCK_EXECUTE, gtk.ICON_SIZE_BUTTON) - button.set_image (image) - self.add_action_widget (button, BuildSetupDialog.RESPONSE_BUILD) - button.show_all () - - # Pull in *just* the table from the Glade XML data. - gxml = gtk.glade.XML (os.path.dirname(__file__) + "/crumbs/puccho.glade", - root = "build_table") - table = gxml.get_widget ("build_table") - self.vbox.pack_start (table, True, False, 0) - - # Grab all the widgets that we need to turn on/off when we refresh... - self.conf_widgets = [] - self.conf_widgets += [gxml.get_widget ("machine_label")] - self.conf_widgets += [gxml.get_widget ("distribution_label")] - self.conf_widgets += [gxml.get_widget ("image_label")] - self.conf_widgets += [gxml.get_widget ("machine_combo")] - self.conf_widgets += [gxml.get_widget ("distribution_combo")] - self.conf_widgets += [gxml.get_widget ("image_combo")] - - # Grab the status widgets - self.status_image = gxml.get_widget ("status_image") - self.status_label = gxml.get_widget ("status_label") - - # Grab the refresh button and connect to the clicked signal - self.refresh_button = gxml.get_widget ("refresh_button") - self.refresh_button.connect ("clicked", self.refresh_button_clicked) - - # Grab the location entry and connect to editable::changed - self.location_entry = gxml.get_widget ("location_entry") - self.location_entry.connect ("changed", - self.repository_entry_editable_changed) - - # Grab the machine combo and hook onto the changed signal. This then - # allows us to populate the distro and image combos - self.machine_combo = gxml.get_widget ("machine_combo") - self.machine_combo.connect ("changed", self.machine_combo_changed) - - # Setup the combo - cell = gtk.CellRendererText() - self.machine_combo.pack_start(cell, True) - self.machine_combo.add_attribute(cell, 'text', 0) - - # Grab the distro and image combos. We need these to populate with - # models once the machine is chosen - self.distribution_combo = gxml.get_widget ("distribution_combo") - cell = gtk.CellRendererText() - self.distribution_combo.pack_start(cell, True) - self.distribution_combo.add_attribute(cell, 'text', 0) - - self.image_combo = gxml.get_widget ("image_combo") - cell = gtk.CellRendererText() - self.image_combo.pack_start(cell, True) - self.image_combo.add_attribute(cell, 'text', 0) - - # Put the default descriptive text in the status box - self.clear_status_message() - - # Mark as non-configurable, this is just greys out the widgets the - # user can't yet use - self.configurable = False - self.set_configurable(False) - - # Show the table - table.show_all () - - # The loader and some signals connected to it to update the status - # area - self.loader = MetaDataLoader() - self.loader.connect ("success", self.loader_success_cb) - self.loader.connect ("error", self.loader_error_cb) - - def update_configuration (self): - """ A poorly named function but it updates the internal configuration - from the widgets. This can make that configuration concrete and can - thus be used for building """ - # Extract the chosen machine from the combo - model = self.machine_combo.get_model() - active_iter = self.machine_combo.get_active_iter() - if (active_iter): - self.configuration.machine = model.get(active_iter, 0)[0] - - # Extract the chosen distro from the combo - model = self.distribution_combo.get_model() - active_iter = self.distribution_combo.get_active_iter() - if (active_iter): - self.configuration.distro = model.get(active_iter, 0)[0] - - # Extract the chosen image from the combo - model = self.image_combo.get_model() - active_iter = self.image_combo.get_active_iter() - if (active_iter): - self.configuration.image = model.get(active_iter, 0)[0] - -# This function operates to pull events out from the event queue and then push -# them into the RunningBuild (which then drives the RunningBuild which then -# pushes through and updates the progress tree view.) -# -# TODO: Should be a method on the RunningBuild class -def event_handle_timeout (eventHandler, build): - # Consume as many messages as we can ... - event = eventHandler.getEvent() - while event: - build.handle_event (event) - event = eventHandler.getEvent() - return True - -class MainWindow (gtk.Window): - - # Callback that gets fired when the user hits a button in the - # BuildSetupDialog. - def build_dialog_box_response_cb (self, dialog, response_id): - conf = None - if (response_id == BuildSetupDialog.RESPONSE_BUILD): - dialog.update_configuration() - print(dialog.configuration.machine, dialog.configuration.distro, \ - dialog.configuration.image) - conf = dialog.configuration - - dialog.destroy() - - if conf: - self.manager.do_build (conf) - - def build_button_clicked_cb (self, button): - dialog = BuildSetupDialog () - - # For some unknown reason Dialog.run causes nice little deadlocks ... :-( - dialog.connect ("response", self.build_dialog_box_response_cb) - dialog.show() - - def __init__ (self): - gtk.Window.__init__ (self) - - # Pull in *just* the main vbox from the Glade XML data and then pack - # that inside the window - gxml = gtk.glade.XML (os.path.dirname(__file__) + "/crumbs/puccho.glade", - root = "main_window_vbox") - vbox = gxml.get_widget ("main_window_vbox") - self.add (vbox) - - # Create the tree views for the build manager view and the progress view - self.build_manager_view = BuildManagerTreeView() - self.running_build_view = RunningBuildTreeView() - - # Grab the scrolled windows that we put the tree views into - self.results_scrolledwindow = gxml.get_widget ("results_scrolledwindow") - self.progress_scrolledwindow = gxml.get_widget ("progress_scrolledwindow") - - # Put the tree views inside ... - self.results_scrolledwindow.add (self.build_manager_view) - self.progress_scrolledwindow.add (self.running_build_view) - - # Hook up the build button... - self.build_button = gxml.get_widget ("main_toolbutton_build") - self.build_button.connect ("clicked", self.build_button_clicked_cb) - -# I'm not very happy about the current ownership of the RunningBuild. I have -# my suspicions that this object should be held by the BuildManager since we -# care about the signals in the manager - -def running_build_succeeded_cb (running_build, manager): - # Notify the manager that a build has succeeded. This is necessary as part - # of the 'hack' that we use for making the row in the model / view - # representing the ongoing build change into a row representing the - # completed build. Since we know only one build can be running a time then - # we can handle this. - - # FIXME: Refactor all this so that the RunningBuild is owned by the - # BuildManager. It can then hook onto the signals directly and drive - # interesting things it cares about. - manager.notify_build_succeeded () - print("build succeeded") - -def running_build_failed_cb (running_build, manager): - # As above - print("build failed") - manager.notify_build_failed () - -def main (server, eventHandler): - # Initialise threading... - gobject.threads_init() - gtk.gdk.threads_init() - - main_window = MainWindow () - main_window.show_all () - - # Set up the build manager stuff in general - builds_dir = os.path.join (os.getcwd(), "results") - manager = BuildManager (server, builds_dir) - main_window.build_manager_view.set_model (manager.model) - - # Do the running build setup - running_build = RunningBuild () - main_window.running_build_view.set_model (running_build.model) - running_build.connect ("build-succeeded", running_build_succeeded_cb, - manager) - running_build.connect ("build-failed", running_build_failed_cb, manager) - - # We need to save the manager into the MainWindow so that the toolbar - # button can use it. - # FIXME: Refactor ? - main_window.manager = manager - - # Use a timeout function for probing the event queue to find out if we - # have a message waiting for us. - gobject.timeout_add (200, - event_handle_timeout, - eventHandler, - running_build) - - gtk.main()