def on_info_bar_clicked(self, *args):
if not self._error_msgs:
return
label = _("The software marked for installation has the following errors. "
"This is likely caused by an error with your installation source. "
"You can quit the installer, change your software source, or change "
"your software selections.")
dialog = DetailedErrorDialog(
self.data,
buttons=[C_("GUI|Software Selection|Error Dialog", "_Quit"),
C_("GUI|Software Selection|Error Dialog", "_Modify Software Source"),
C_("GUI|Software Selection|Error Dialog", "Modify _Selections")],
label=label)
with self.main_window.enlightbox(dialog.window):
dialog.refresh(self._error_msgs)
rc = dialog.run()
dialog.window.destroy()
if rc == 0:
# Quit.
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
elif rc == 1:
# Send the user to the installation source spoke.
self.skipTo = "SourceSpoke"
self.window.emit("button-clicked")
elif rc == 2:
# Close the dialog so the user can change selections.
pass
else:
pass
def connectToView(self):
"""Attempt to connect to self.vncconnecthost"""
maxTries = 10
self.log.info(_("Attempting to connect to vnc client on host %s..."), self.vncconnecthost)
if self.vncconnectport != "":
hostarg = self.vncconnecthost + ":" + self.vncconnectport
else:
hostarg = self.vncconnecthost
vncconfigcommand = [self.root + "/usr/bin/vncconfig", "-display", ":%s" % constants.X_DISPLAY_NUMBER, "-connect", hostarg]
for _i in range(maxTries):
vncconfp = util.startProgram(vncconfigcommand, stdout=subprocess.PIPE, stderr=subprocess.PIPE) # vncconfig process
err = vncconfp.communicate()[1].decode("utf-8")
if err == '':
self.log.info(_("Connected!"))
return True
elif err.startswith("connecting") and err.endswith("failed\n"):
self.log.info(_("Will try to connect again in 15 seconds..."))
time.sleep(15)
continue
else:
log.critical(err)
util.ipmi_abort(scripts=self.anaconda.ksdata.scripts)
sys.exit(1)
self.log.error(P_("Giving up attempting to connect after %d try!\n",
"Giving up attempting to connect after %d tries!\n",
maxTries), maxTries)
return False
def _show_error_dialog(self):
label = _(
"The software marked for installation has the following errors. "
"This is likely caused by an error with your installation source. "
"You can quit the installer, change your software source, or change "
"your software selections."
)
buttons = [
C_("GUI|Software Selection|Error Dialog", "_Quit"),
C_("GUI|Software Selection|Error Dialog", "_Modify Software Source"),
C_("GUI|Software Selection|Error Dialog", "Modify _Selections")
]
dialog = DetailedErrorDialog(self.data, buttons=buttons, label=label)
with self.main_window.enlightbox(dialog.window):
errors = "\n".join(self._errors)
dialog.refresh(errors)
rc = dialog.run()
dialog.window.destroy()
if rc == 0:
# Quit the installation.
ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
elif rc == 1:
# Send the user to the installation source spoke.
self.skipTo = "SourceSpoke"
self.window.emit("button-clicked")
def _flatpak_install(self):
# Install flatpak from the local source on SilverBlue
progressQ.send_message(_("Starting Flatpak installation"))
# Cleanup temporal repo created in the __init__
self._flatpak_payload.cleanup()
# Initialize new repo on the installed system
self._flatpak_payload.initialize_with_system_path()
try:
self._flatpak_payload.install_all()
except FlatpakInstallError as e:
exn = PayloadInstallError("Failed to install flatpaks: %s" % e)
log.error(str(exn))
if errors.errorHandler.cb(exn) == errors.ERROR_RAISE:
progressQ.send_quit(1)
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(1)
progressQ.send_message(_("Post-installation flatpak tasks"))
self._flatpak_payload.add_remote("fedora", "oci+https://registry.fedoraproject.org")
self._flatpak_payload.replace_installed_refs_remote("fedora")
self._flatpak_payload.remove_remote(FlatpakPayload.LOCAL_REMOTE_NAME)
progressQ.send_message(_("Flatpak installation has finished"))
def connectToView(self):
"""Attempt to connect to self.vncconnecthost"""
maxTries = 10
self.log.info(_("Attempting to connect to vnc client on host %s..."), self.vncconnecthost)
if self.vncconnectport != "":
hostarg = self.vncconnecthost + ":" + self.vncconnectport
else:
hostarg = self.vncconnecthost
vncconfigcommand = [self.root + "/usr/bin/vncconfig", "-display", ":%s" % constants.X_DISPLAY_NUMBER, "-connect", hostarg]
for _i in range(maxTries):
vncconfp = util.startProgram(vncconfigcommand, stdout=subprocess.PIPE, stderr=subprocess.PIPE) # vncconfig process
err = vncconfp.communicate()[1].decode("utf-8")
if err == '':
self.log.info(_("Connected!"))
return True
elif err.startswith("connecting") and err.endswith("failed\n"):
self.log.info(_("Will try to connect again in 15 seconds..."))
time.sleep(15)
continue
else:
log.critical(err)
util.ipmi_abort(scripts=self.anaconda.ksdata.scripts)
sys.exit(1)
self.log.error(P_("Giving up attempting to connect after %d try!\n",
"Giving up attempting to connect after %d tries!\n",
maxTries), maxTries)
return False
def on_info_bar_clicked(self, *args):
if not self._errorMsgs:
return
label = _("The software marked for installation has the following errors. "
"This is likely caused by an error with your installation source. "
"You can quit the installer, change your software source, or change "
"your software selections.")
dialog = DetailedErrorDialog(self.data,
buttons=[C_("GUI|Software Selection|Error Dialog", "_Quit"),
C_("GUI|Software Selection|Error Dialog", "_Modify Software Source"),
C_("GUI|Software Selection|Error Dialog", "Modify _Selections")],
label=label)
with self.main_window.enlightbox(dialog.window):
dialog.refresh(self._errorMsgs)
rc = dialog.run()
dialog.window.destroy()
if rc == 0:
# Quit.
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
elif rc == 1:
# Send the user to the installation source spoke.
self.skipTo = "SourceSpoke"
self.window.emit("button-clicked")
elif rc == 2:
# Close the dialog so the user can change selections.
pass
else:
pass
def on_info_bar_clicked(self, *args):
if self._disks_errors:
label = _("The following errors were encountered when checking your disk "
"selection. You can modify your selection or quit the "
"installer.")
dialog = DetailedErrorDialog(self.data, buttons=[
C_("GUI|Storage|Error Dialog", "_Quit"),
C_("GUI|Storage|Error Dialog", "_Modify Disk Selection")],
label=label)
with self.main_window.enlightbox(dialog.window):
errors = "\n".join(self._disks_errors)
dialog.refresh(errors)
rc = dialog.run()
dialog.window.destroy()
if rc == 0:
# Quit.
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
elif self.errors:
label = _("The following errors were encountered when checking your storage "
"configuration. You can modify your storage layout or quit the "
"installer.")
dialog = DetailedErrorDialog(self.data, buttons=[
C_("GUI|Storage|Error Dialog", "_Quit"),
C_("GUI|Storage|Error Dialog", "_Modify Storage Layout")],
label=label)
with self.main_window.enlightbox(dialog.window):
errors = "\n".join(self.errors)
dialog.refresh(errors)
rc = dialog.run()
dialog.window.destroy()
if rc == 0:
# Quit.
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
elif self.warnings:
label = _("The following warnings were encountered when checking your storage "
"configuration. These are not fatal, but you may wish to make "
"changes to your storage layout.")
dialog = DetailedErrorDialog(self.data,
buttons=[C_("GUI|Storage|Warning Dialog", "_OK")], label=label)
with self.main_window.enlightbox(dialog.window):
warnings = "\n".join(self.warnings)
dialog.refresh(warnings)
rc = dialog.run()
dialog.window.destroy()
def _on_continue_clicked(self, window, user_data=None):
# Don't display the betanag dialog if this is the final release.
if not isFinal:
dlg = self.builder.get_object("betaWarnDialog")
with self.main_window.enlightbox(dlg):
rc = dlg.run()
dlg.hide()
if rc != 1:
ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
StandaloneSpoke._on_continue_clicked(self, window, user_data)
def _on_quit_clicked(self, win, userData=None):
if not win.get_quit_button():
return
dialog = self._quitDialog(None)
with self.mainWindow.enlightbox(dialog.window):
rc = dialog.run()
dialog.window.destroy()
if rc == 1:
self._currentAction.exited.emit(self._currentAction)
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
def _on_quit_clicked(self, win, userData=None):
if not win.get_quit_button():
return
dialog = self._quitDialog(None)
with self.mainWindow.enlightbox(dialog.window):
rc = dialog.run()
dialog.window.destroy()
if rc == 1:
self._currentAction.exited.emit(self._currentAction)
util.ipmi_abort(scripts=self.data.scripts)
Gtk.main_quit()
def _miss(self, exn):
if self.data.packages.handleMissing == KS_MISSING_IGNORE:
return
log.error('Missed: %r', exn)
if errors.errorHandler.cb(exn) == errors.ERROR_RAISE:
# The progress bar polls kind of slowly, thus installation could
# still continue for a bit before the quit message is processed.
# Doing a sys.exit also ensures the running thread quits before
# it can do anything else.
progressQ.send_quit(1)
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(1)
def input(self, args, key):
"""Override input so that we can launch the VNC password spoke"""
if self._container.process_user_input(key):
self.apply()
return InputState.PROCESSED_AND_CLOSE
else:
if key.lower() == Prompt.QUIT:
d = YesNoDialog(_(QUIT_MESSAGE))
ScreenHandler.push_screen_modal(d)
if d.answer:
ipmi_abort(scripts=self.data.scripts)
if conf.system.can_reboot:
execWithRedirect("systemctl", ["--no-wall", "reboot"])
else:
sys.exit(1)
else:
return super().input(args, key)
def input(self, args, key):
"""Override input so that we can launch the VNC password spoke"""
if self._container.process_user_input(key):
self.apply()
return InputState.PROCESSED_AND_CLOSE
else:
# TRANSLATORS: 'q' to quit
if key.lower() == C_('TUI|Spoke Navigation', 'q'):
d = YesNoDialog(_(u"Do you really want to quit?"))
ScreenHandler.push_screen_modal(d)
if d.answer:
ipmi_abort(scripts=self.data.scripts)
if conf.system.can_reboot:
execWithRedirect("systemctl", ["--no-wall", "reboot"])
else:
sys.exit(1)
else:
return super().input(args, key)
def input(self, args, key):
"""Override input so that we can launch the VNC password spoke"""
if self._container.process_user_input(key):
self.apply()
return InputState.PROCESSED_AND_CLOSE
else:
# TRANSLATORS: 'q' to quit
if key.lower() == C_('TUI|Spoke Navigation', 'q'):
d = YesNoDialog(_(u"Do you really want to quit?"))
ScreenHandler.push_screen_modal(d)
if d.answer:
ipmi_abort(scripts=self.data.scripts)
if conf.system.can_reboot:
execWithRedirect("systemctl", ["--no-wall", "reboot"])
else:
sys.exit(1)
else:
return super().input(args, key)
def _on_continue_clicked(self, window, user_data=None):
# Don't display the betanag dialog if this is the final release or
# when autostep has been requested as betanag breaks the autostep logic.
if not isFinal and not self.data.autostep.seen:
dlg = self.builder.get_object("betaWarnDialog")
with self.main_window.enlightbox(dlg):
rc = dlg.run()
dlg.hide()
if rc != 1:
ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
dialog = UnsupportedHardwareDialog(self.data)
if not dialog.supported:
with self.main_window.enlightbox(dialog.window):
dialog.refresh()
rc = dialog.run()
if rc != 1:
ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
StandaloneSpoke._on_continue_clicked(self, window, user_data)
def _on_continue_clicked(self, window, user_data=None):
# Don't display the betanag dialog if this is the final release or
# when autostep has been requested as betanag breaks the autostep logic.
if not isFinal and not self.data.autostep.seen:
dlg = self.builder.get_object("betaWarnDialog")
with self.main_window.enlightbox(dlg):
rc = dlg.run()
dlg.hide()
if rc != 1:
ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
# pylint: disable=no-member
if productName.startswith("Red Hat ") and \
is_unsupported_hw() and not self.data.unsupportedhardware.unsupported_hardware:
dlg = self.builder.get_object("unsupportedHardwareDialog")
with self.main_window.enlightbox(dlg):
rc = dlg.run()
dlg.destroy()
if rc != 1:
ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
StandaloneSpoke._on_continue_clicked(self, window, user_data)
def _on_continue_clicked(self, window, user_data=None):
# Don't display the betanag dialog if this is the final release or
# when autostep has been requested as betanag breaks the autostep logic.
if not isFinal and not self.data.autostep.seen:
dlg = self.builder.get_object("betaWarnDialog")
with self.main_window.enlightbox(dlg):
rc = dlg.run()
dlg.hide()
if rc != 1:
ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
dialog = UnsupportedHardwareDialog(self.data, self.instclass)
if not dialog.supported:
with self.main_window.enlightbox(dialog.window):
dialog.refresh()
rc = dialog.run()
if rc != 1:
ipmi_abort(scripts=self.data.scripts)
sys.exit(0)
StandaloneSpoke._on_continue_clicked(self, window, user_data)
def startServer(self):
self.log.info(_("Starting VNC..."))
network.wait_for_connectivity()
# Lets call it from here for now.
try:
self.initialize()
except (socket.herror, dbus.DBusException, ValueError) as e:
stdoutLog.critical("Could not initialize the VNC server: %s", e)
util.ipmi_abort(scripts=self.anaconda.ksdata.scripts)
sys.exit(1)
if self.password and (len(self.password) < 6
or len(self.password) > 8):
self.changeVNCPasswdWindow()
if not self.password:
SecurityTypes = "None"
rfbauth = "0"
else:
SecurityTypes = "VncAuth"
rfbauth = self.pw_file
# Create the password file.
self.setVNCPassword()
# Lets start the xvnc.
xvnccommand = [
XVNC_BINARY_NAME,
":%s" % constants.X_DISPLAY_NUMBER, "-depth", "16", "-br",
"IdleTimeout=0", "-auth", "/dev/null", "-once",
"DisconnectClients=false",
"desktop=%s" % (self.desktop, ),
"SecurityTypes=%s" % SecurityTypes,
"rfbauth=%s" % rfbauth
]
try:
util.startX(xvnccommand,
output_redirect=self.openlogfile(),
timeout=self.timeout)
except OSError:
stdoutLog.critical("Could not start the VNC server. Aborting.")
util.ipmi_abort(scripts=self.anaconda.ksdata.scripts)
sys.exit(1)
self.log.info(_("The VNC server is now running."))
# Lets tell the user what we are going to do.
if self.vncconnecthost != "":
self.log.warning(
_("\n\nYou chose to connect to a listening vncviewer. \n"
"This does not require a password to be set. If you \n"
"set a password, it will be used in case the connection \n"
"to the vncviewer is unsuccessful\n\n"))
elif self.password == "":
self.log.warning(
_("\n\nWARNING!!! VNC server running with NO PASSWORD!\n"
"You can use the vncpassword=PASSWORD boot option\n"
"if you would like to secure the server.\n\n"))
elif self.password != "":
self.log.warning(
_("\n\nYou chose to execute vnc with a password. \n\n"))
else:
self.log.warning(_("\n\nUnknown Error. Aborting. \n\n"))
util.ipmi_abort(scripts=self.anaconda.ksdata.scripts)
sys.exit(1)
# Lets try to configure the vnc server to whatever the user specified
if self.vncconnecthost != "":
connected = self.connectToView()
if not connected:
self.VNCListen()
else:
self.VNCListen()
# Start vncconfig for copy/paste
self.startVncConfig()
# Add a check for the snapshot requests.
storage_checker.add_check(ksdata.snapshot.verify_requests)
# Set the disk images.
from pyanaconda.modules.common.constants.objects import DISK_SELECTION
from pyanaconda.argument_parsing import name_path_pairs
disk_select_proxy = STORAGE.get_proxy(DISK_SELECTION)
disk_images = {}
try:
for (name, path) in name_path_pairs(opts.images):
log.info("naming disk image '%s' '%s'", path, name)
disk_images[name] = path
except ValueError as e:
stdout_log.error("error specifying image file: %s", e)
util.ipmi_abort(scripts=ksdata.scripts)
sys.exit(1)
disk_select_proxy.SetDiskImages(disk_images)
# Ignore disks labeled OEMDRV
from pyanaconda.storage.utils import ignore_oemdrv_disks
ignore_oemdrv_disks()
# Ignore nvdimm devices.
from pyanaconda.storage.utils import ignore_nvdimm_blockdevs
ignore_nvdimm_blockdevs()
# Specify protected devices.
from pyanaconda.modules.common.constants.services import STORAGE
def install(self):
mainctx = create_new_context()
mainctx.push_thread_default()
cancellable = None
gi.require_version("OSTree", "1.0")
gi.require_version("RpmOstree", "1.0")
from gi.repository import OSTree, RpmOstree
ostreesetup = self.data.ostreesetup
log.info("executing ostreesetup=%r", ostreesetup)
# Initialize the filesystem - this will create the repo as well
self._safe_exec_with_redirect("ostree",
["admin", "--sysroot=" + util.getTargetPhysicalRoot(),
"init-fs", util.getTargetPhysicalRoot()])
# Here, we use the physical root as sysroot, because we haven't
# yet made a deployment.
sysroot_file = Gio.File.new_for_path(util.getTargetPhysicalRoot())
sysroot = OSTree.Sysroot.new(sysroot_file)
sysroot.load(cancellable)
repo = sysroot.get_repo(None)[1]
# We don't support resuming from interrupted installs
repo.set_disable_fsync(True)
self._remoteOptions = {}
if hasattr(ostreesetup, 'nogpg') and ostreesetup.nogpg:
self._remoteOptions['gpg-verify'] = Variant('b', False)
if flags.noverifyssl:
self._remoteOptions['tls-permissive'] = Variant('b', True)
repo.remote_change(None, OSTree.RepoRemoteChange.ADD_IF_NOT_EXISTS,
ostreesetup.remote, ostreesetup.url,
Variant('a{sv}', self._remoteOptions),
cancellable)
# Variable substitute the ref: https://pagure.io/atomic-wg/issue/299
ref = RpmOstree.varsubst_basearch(ostreesetup.ref)
progressQ.send_message(_("Starting pull of %(branchName)s from %(source)s") %
{"branchName": ref, "source": ostreesetup.remote})
progress = OSTree.AsyncProgress.new()
progress.connect('changed', self._pull_progress_cb)
pull_opts = {'refs': Variant('as', [ref])}
# If we're doing a kickstart, we can at least use the content as a reference:
# See <https://github.com/rhinstaller/anaconda/issues/1117>
# The first path here is used by <https://pagure.io/fedora-lorax-templates>
# and the second by <https://github.com/projectatomic/rpm-ostree-toolbox/>
if OSTree.check_version(2017, 8):
for path in ['/ostree/repo', '/install/ostree/repo']:
if os.path.isdir(path + '/objects'):
pull_opts['localcache-repos'] = Variant('as', [path])
break
try:
repo.pull_with_options(ostreesetup.remote,
Variant('a{sv}', pull_opts),
progress, cancellable)
except GError as e:
exn = PayloadInstallError("Failed to pull from repository: %s" % e)
log.error(str(exn))
if errors.errorHandler.cb(exn) == errors.ERROR_RAISE:
progressQ.send_quit(1)
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(1)
log.info("ostree pull: %s", progress.get_status() or "")
progressQ.send_message(_("Preparing deployment of %s") % (ref, ))
# Now that we have the data pulled, delete the remote for now.
# This will allow a remote configuration defined in the tree
# (if any) to override what's in the kickstart. Otherwise,
# we'll re-add it in post. Ideally, ostree would support a
# pull without adding a remote, but that would get quite
# complex.
repo.remote_delete(self.data.ostreesetup.remote, None)
self._safe_exec_with_redirect("ostree",
["admin", "--sysroot=" + util.getTargetPhysicalRoot(),
"os-init", ostreesetup.osname])
admin_deploy_args = ["admin", "--sysroot=" + util.getTargetPhysicalRoot(),
"deploy", "--os=" + ostreesetup.osname]
admin_deploy_args.append(ostreesetup.remote + ':' + ref)
log.info("ostree admin deploy starting")
progressQ.send_message(_("Deployment starting: %s") % (ref, ))
self._safe_exec_with_redirect("ostree", admin_deploy_args)
log.info("ostree admin deploy complete")
progressQ.send_message(_("Deployment complete: %s") % (ref, ))
# Reload now that we've deployed, find the path to the new deployment
sysroot.load(None)
deployments = sysroot.get_deployments()
assert len(deployments) > 0
deployment = deployments[0]
deployment_path = sysroot.get_deployment_directory(deployment)
util.setSysroot(deployment_path.get_path())
try:
self._copy_bootloader_data()
except (OSError, RuntimeError) as e:
exn = PayloadInstallError("Failed to copy bootloader data: %s" % e)
log.error(str(exn))
if errors.errorHandler.cb(exn) == errors.ERROR_RAISE:
progressQ.send_quit(1)
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(1)
mainctx.pop_thread_default()
def startServer(self):
self.log.info(_("Starting VNC..."))
network.wait_for_connectivity()
# Lets call it from here for now.
try:
self.initialize()
except (socket.herror, dbus.DBusException, ValueError) as e:
stdoutLog.critical("Could not initialize the VNC server: %s", e)
util.ipmi_abort(scripts=self.anaconda.ksdata.scripts)
sys.exit(1)
if self.password and (len(self.password) < 6 or len(self.password) > 8):
self.changeVNCPasswdWindow()
if not self.password:
SecurityTypes = "None"
rfbauth = "0"
else:
SecurityTypes = "VncAuth"
rfbauth = self.pw_file
# Create the password file.
self.setVNCPassword()
# Lets start the xvnc.
xvnccommand = [XVNC_BINARY_NAME, ":%s" % constants.X_DISPLAY_NUMBER,
"-depth", "16", "-br",
"IdleTimeout=0", "-auth", "/dev/null", "-once",
"DisconnectClients=false", "desktop=%s" % (self.desktop,),
"SecurityTypes=%s" % SecurityTypes, "rfbauth=%s" % rfbauth]
try:
util.startX(xvnccommand, output_redirect=self.openlogfile(), timeout=self.timeout)
except OSError:
stdoutLog.critical("Could not start the VNC server. Aborting.")
util.ipmi_abort(scripts=self.anaconda.ksdata.scripts)
sys.exit(1)
self.log.info(_("The VNC server is now running."))
# Lets tell the user what we are going to do.
if self.vncconnecthost != "":
self.log.warning(_("\n\nYou chose to connect to a listening vncviewer. \n"
"This does not require a password to be set. If you \n"
"set a password, it will be used in case the connection \n"
"to the vncviewer is unsuccessful\n\n"))
elif self.password == "":
self.log.warning(_("\n\nWARNING!!! VNC server running with NO PASSWORD!\n"
"You can use the vncpassword=PASSWORD boot option\n"
"if you would like to secure the server.\n\n"))
elif self.password != "":
self.log.warning(_("\n\nYou chose to execute vnc with a password. \n\n"))
else:
self.log.warning(_("\n\nUnknown Error. Aborting. \n\n"))
util.ipmi_abort(scripts=self.anaconda.ksdata.scripts)
sys.exit(1)
# Lets try to configure the vnc server to whatever the user specified
if self.vncconnecthost != "":
connected = self.connectToView()
if not connected:
self.VNCListen()
else:
self.VNCListen()
# Start vncconfig for copy/paste
self.startVncConfig()
def install(self):
mainctx = create_new_context()
mainctx.push_thread_default()
cancellable = None
gi.require_version("OSTree", "1.0")
gi.require_version("RpmOstree", "1.0")
from gi.repository import OSTree, RpmOstree
ostreesetup = self.data.ostreesetup
log.info("executing ostreesetup=%r", ostreesetup)
# Initialize the filesystem - this will create the repo as well
self._safe_exec_with_redirect("ostree", [
"admin", "--sysroot=" + conf.target.physical_root, "init-fs",
conf.target.physical_root
])
# Here, we use the physical root as sysroot, because we haven't
# yet made a deployment.
sysroot_file = Gio.File.new_for_path(conf.target.physical_root)
sysroot = OSTree.Sysroot.new(sysroot_file)
sysroot.load(cancellable)
repo = sysroot.get_repo(None)[1]
# We don't support resuming from interrupted installs
repo.set_disable_fsync(True)
self._remoteOptions = {}
if hasattr(ostreesetup, 'nogpg') and ostreesetup.nogpg:
self._remoteOptions['gpg-verify'] = Variant('b', False)
if not conf.payload.verify_ssl:
self._remoteOptions['tls-permissive'] = Variant('b', True)
repo.remote_change(None, OSTree.RepoRemoteChange.ADD_IF_NOT_EXISTS,
ostreesetup.remote, ostreesetup.url,
Variant('a{sv}', self._remoteOptions), cancellable)
# Variable substitute the ref: https://pagure.io/atomic-wg/issue/299
ref = RpmOstree.varsubst_basearch(ostreesetup.ref)
progressQ.send_message(
_("Starting pull of %(branchName)s from %(source)s") % {
"branchName": ref,
"source": ostreesetup.remote
})
progress = OSTree.AsyncProgress.new()
progress.connect('changed', self._pull_progress_cb)
pull_opts = {'refs': Variant('as', [ref])}
# If we're doing a kickstart, we can at least use the content as a reference:
# See <https://github.com/rhinstaller/anaconda/issues/1117>
# The first path here is used by <https://pagure.io/fedora-lorax-templates>
# and the second by <https://github.com/projectatomic/rpm-ostree-toolbox/>
if OSTree.check_version(2017, 8):
for path in ['/ostree/repo', '/install/ostree/repo']:
if os.path.isdir(path + '/objects'):
pull_opts['localcache-repos'] = Variant('as', [path])
break
try:
repo.pull_with_options(ostreesetup.remote,
Variant('a{sv}', pull_opts), progress,
cancellable)
except GError as e:
exn = PayloadInstallError("Failed to pull from repository: %s" % e)
log.error(str(exn))
if errors.errorHandler.cb(exn) == errors.ERROR_RAISE:
progressQ.send_quit(1)
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(1)
log.info("ostree pull: %s", progress.get_status() or "")
progressQ.send_message(_("Preparing deployment of %s") % (ref, ))
# Now that we have the data pulled, delete the remote for now.
# This will allow a remote configuration defined in the tree
# (if any) to override what's in the kickstart. Otherwise,
# we'll re-add it in post. Ideally, ostree would support a
# pull without adding a remote, but that would get quite
# complex.
repo.remote_delete(self.data.ostreesetup.remote, None)
self._safe_exec_with_redirect("ostree", [
"admin", "--sysroot=" + conf.target.physical_root, "os-init",
ostreesetup.osname
])
admin_deploy_args = [
"admin", "--sysroot=" + conf.target.physical_root, "deploy",
"--os=" + ostreesetup.osname
]
admin_deploy_args.append(ostreesetup.remote + ':' + ref)
log.info("ostree admin deploy starting")
progressQ.send_message(_("Deployment starting: %s") % (ref, ))
self._safe_exec_with_redirect("ostree", admin_deploy_args)
log.info("ostree admin deploy complete")
progressQ.send_message(_("Deployment complete: %s") % (ref, ))
# Reload now that we've deployed, find the path to the new deployment
sysroot.load(None)
deployments = sysroot.get_deployments()
assert len(deployments) > 0
deployment = deployments[0]
deployment_path = sysroot.get_deployment_directory(deployment)
util.set_system_root(deployment_path.get_path())
try:
self._copy_bootloader_data()
except (OSError, RuntimeError) as e:
exn = PayloadInstallError("Failed to copy bootloader data: %s" % e)
log.error(str(exn))
if errors.errorHandler.cb(exn) == errors.ERROR_RAISE:
progressQ.send_quit(1)
util.ipmi_abort(scripts=self.data.scripts)
sys.exit(1)
mainctx.pop_thread_default()
min_ram = isys.MIN_RAM
from pyanaconda.storage_utils import storage_checker
storage_checker.add_constraint(constants.STORAGE_MIN_RAM, min_ram)
from pyanaconda.argument_parsing import name_path_pairs
image_count = 0
try:
for (name, path) in name_path_pairs(opts.images):
log.info("naming disk image '%s' '%s'", path, name)
anaconda.storage.disk_images[name] = path
image_count += 1
except ValueError as e:
stdout_log.error("error specifying image file: %s", e)
util.ipmi_abort(scripts=ksdata.scripts)
sys.exit(1)
if image_count:
anaconda.storage.setup_disk_images()
# Ignore disks labeled OEMDRV
from pyanaconda.modules.common.constants.services import STORAGE
from pyanaconda.modules.common.constants.objects import DISK_SELECTION
from pyanaconda.storage_utils import device_matches
matched = device_matches("LABEL=OEMDRV", disks_only=True)
for oemdrv_disk in matched:
disk_select_proxy = STORAGE.get_proxy(DISK_SELECTION)
ignored_disks = disk_select_proxy.IgnoredDisks
if oemdrv_disk not in ignored_disks:
