#
# iutil.py - generic install utility functions
#
# Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007
# Red Hat, Inc. All rights reserved.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# 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, see .
#
# Author(s): Erik Troan
#
import glob
import os, string, stat, sys
import signal
import os.path
from errno import *
import warnings
import subprocess
from flags import flags
from constants import *
import re
import threading
import gettext
_ = lambda x: gettext.ldgettext("anaconda", x)
import logging
log = logging.getLogger("anaconda")
program_log = logging.getLogger("program")
#Python reimplementation of the shell tee process, so we can
#feed the pipe output into two places at the same time
class tee(threading.Thread):
def __init__(self, inputdesc, outputdesc, logmethod):
threading.Thread.__init__(self)
self.inputdesc = os.fdopen(inputdesc, "r")
self.outputdesc = outputdesc
self.logmethod = logmethod
self.running = True
def run(self):
while self.running:
data = self.inputdesc.readline()
if data == "":
self.running = False
else:
self.logmethod(data.rstrip('\n'))
os.write(self.outputdesc, data)
def stop(self):
self.running = False
return self
## Run an external program and redirect the output to a file.
# @param command The command to run.
# @param argv A list of arguments.
# @param stdin The file descriptor to read stdin from.
# @param stdout The file descriptor to redirect stdout to.
# @param stderr The file descriptor to redirect stderr to.
# @param root The directory to chroot to before running command.
# @return The return code of command.
def execWithRedirect(command, argv, stdin = None, stdout = None,
stderr = None, root = '/'):
def chroot ():
os.chroot(root)
stdinclose = stdoutclose = stderrclose = lambda : None
argv = list(argv)
if isinstance(stdin, str):
if os.access(stdin, os.R_OK):
stdin = os.open(stdin, os.O_RDONLY)
stdinclose = lambda : os.close(stdin)
else:
stdin = sys.stdin.fileno()
elif isinstance(stdin, int):
pass
elif stdin is None or not isinstance(stdin, file):
stdin = sys.stdin.fileno()
if isinstance(stdout, str):
stdout = os.open(stdout, os.O_RDWR|os.O_CREAT)
stdoutclose = lambda : os.close(stdout)
elif isinstance(stdout, int):
pass
elif stdout is None or not isinstance(stdout, file):
stdout = sys.stdout.fileno()
if isinstance(stderr, str):
stderr = os.open(stderr, os.O_RDWR|os.O_CREAT)
stderrclose = lambda : os.close(stderr)
elif isinstance(stderr, int):
pass
elif stderr is None or not isinstance(stderr, file):
stderr = sys.stderr.fileno()
program_log.info("Running... %s" % (" ".join([command] + argv),))
#prepare os pipes for feeding tee proceses
pstdout, pstdin = os.pipe()
perrout, perrin = os.pipe()
env = os.environ.copy()
env.update({"LC_ALL": "C"})
try:
#prepare tee proceses
proc_std = tee(pstdout, stdout, program_log.info)
proc_err = tee(perrout, stderr, program_log.error)
#start monitoring the outputs
proc_std.start()
proc_err.start()
proc = subprocess.Popen([command] + argv, stdin=stdin,
stdout=pstdin,
stderr=perrin,
preexec_fn=chroot, cwd=root,
env=env)
proc.wait()
ret = proc.returncode
#close the input ends of pipes so we get EOF in the tee processes
os.close(pstdin)
os.close(perrin)
#wait for the output to be written and destroy them
proc_std.join()
del proc_std
proc_err.join()
del proc_err
stdinclose()
stdoutclose()
stderrclose()
except OSError as e:
errstr = "Error running %s: %s" % (command, e.strerror)
log.error(errstr)
program_log.error(errstr)
#close the input ends of pipes so we get EOF in the tee processes
os.close(pstdin)
os.close(perrin)
proc_std.join()
proc_err.join()
stdinclose()
stdoutclose()
stderrclose()
raise RuntimeError, errstr
return ret
## Run an external program and capture standard out.
# @param command The command to run.
# @param argv A list of arguments.
# @param stdin The file descriptor to read stdin from.
# @param stderr The file descriptor to redirect stderr to.
# @param root The directory to chroot to before running command.
# @return The output of command from stdout.
def execWithCapture(command, argv, stdin = None, stderr = None, root='/'):
def chroot():
os.chroot(root)
def closefds ():
stdinclose()
stderrclose()
stdinclose = stderrclose = lambda : None
rc = ""
argv = list(argv)
if isinstance(stdin, str):
if os.access(stdin, os.R_OK):
stdin = os.open(stdin, os.O_RDONLY)
stdinclose = lambda : os.close(stdin)
else:
stdin = sys.stdin.fileno()
elif isinstance(stdin, int):
pass
elif stdin is None or not isinstance(stdin, file):
stdin = sys.stdin.fileno()
if isinstance(stderr, str):
stderr = os.open(stderr, os.O_RDWR|os.O_CREAT)
stderrclose = lambda : os.close(stderr)
elif isinstance(stderr, int):
pass
elif stderr is None or not isinstance(stderr, file):
stderr = sys.stderr.fileno()
program_log.info("Running... %s" % (" ".join([command] + argv),))
env = os.environ.copy()
env.update({"LC_ALL": "C"})
try:
proc = subprocess.Popen([command] + argv, stdin=stdin,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
preexec_fn=chroot, cwd=root,
env=env)
while True:
(outStr, errStr) = proc.communicate()
if outStr:
map(program_log.info, outStr.splitlines())
rc += outStr
if errStr:
map(program_log.error, errStr.splitlines())
os.write(stderr, errStr)
if proc.returncode is not None:
break
except OSError as e:
log.error ("Error running " + command + ": " + e.strerror)
closefds()
raise RuntimeError, "Error running " + command + ": " + e.strerror
closefds()
return rc
def execWithCallback(command, argv, stdin = None, stdout = None,
stderr = None, echo = True, callback = None,
callback_data = None, root = '/'):
def chroot():
os.chroot(root)
def closefds ():
stdinclose()
stdoutclose()
stderrclose()
stdinclose = stdoutclose = stderrclose = lambda : None
argv = list(argv)
if isinstance(stdin, str):
if os.access(stdin, os.R_OK):
stdin = os.open(stdin, os.O_RDONLY)
stdinclose = lambda : os.close(stdin)
else:
stdin = sys.stdin.fileno()
elif isinstance(stdin, int):
pass
elif stdin is None or not isinstance(stdin, file):
stdin = sys.stdin.fileno()
if isinstance(stdout, str):
stdout = os.open(stdout, os.O_RDWR|os.O_CREAT)
stdoutclose = lambda : os.close(stdout)
elif isinstance(stdout, int):
pass
elif stdout is None or not isinstance(stdout, file):
stdout = sys.stdout.fileno()
if isinstance(stderr, str):
stderr = os.open(stderr, os.O_RDWR|os.O_CREAT)
stderrclose = lambda : os.close(stderr)
elif isinstance(stderr, int):
pass
elif stderr is None or not isinstance(stderr, file):
stderr = sys.stderr.fileno()
program_log.info("Running... %s" % (" ".join([command] + argv),))
p = os.pipe()
p_stderr = os.pipe()
childpid = os.fork()
if not childpid:
os.close(p[0])
os.close(p_stderr[0])
os.dup2(p[1], 1)
os.dup2(p_stderr[1], 2)
os.dup2(stdin, 0)
os.close(stdin)
os.close(p[1])
os.close(p_stderr[1])
os.execvp(command, [command] + argv)
os._exit(1)
os.close(p[1])
os.close(p_stderr[1])
logline = ''
while 1:
try:
s = os.read(p[0], 1)
except OSError as e:
if e.errno != 4:
raise IOError, e.args
if echo:
os.write(stdout, s)
if s == '\n':
program_log.info(logline)
logline = ''
else:
logline += s
if callback:
callback(s, callback_data=callback_data)
# break out early if the sub-process changes status.
# no need to flush the stream if the process has exited
try:
(pid, status) = os.waitpid(childpid,os.WNOHANG)
if pid != 0:
break
except OSError as e:
log.critical("exception from waitpid: %s %s" %(e.errno, e.strerror))
if len(s) < 1:
break
if len(logline) > 0:
program_log.info(logline)
log_errors = ''
while 1:
try:
err = os.read(p_stderr[0], 128)
except OSError as e:
if e.errno != 4:
raise IOError, e.args
break
log_errors += err
if len(err) < 1:
break
map(program_log.error, log_errors.splitlines())
os.close(p[0])
os.close(p_stderr[0])
try:
#if we didn't already get our child's exit status above, do so now.
if not pid:
(pid, status) = os.waitpid(childpid, 0)
except OSError as e:
log.critical("exception from waitpid: %s %s" %(e.errno, e.strerror))
closefds()
# *shrug* no clue why this would happen, but hope that things are fine
if status is None:
return 0
if os.WIFEXITED(status):
return os.WEXITSTATUS(status)
return 1
def _pulseProgressCallback(data, callback_data=None):
if callback_data:
callback_data.pulse()
def execWithPulseProgress(command, argv, stdin = None, stdout = None,
stderr = None, echo = True, progress = None,
root = '/'):
return execWithCallback(command, argv, stdin=stdin, stdout=stdout,
stderr=stderr, echo=echo, callback=_pulseProgressCallback,
callback_data=progress, root=root)
## Run a shell.
def execConsole():
try:
proc = subprocess.Popen(["/bin/sh"])
proc.wait()
except OSError as e:
raise RuntimeError, "Error running /bin/sh: " + e.strerror
## Get the size of a directory and all its subdirectories.
# @param dir The name of the directory to find the size of.
# @return The size of the directory in kilobytes.
def getDirSize(dir):
def getSubdirSize(dir):
# returns size in bytes
mydev = os.lstat(dir)[stat.ST_DEV]
dsize = 0
for f in os.listdir(dir):
curpath = '%s/%s' % (dir, f)
sinfo = os.lstat(curpath)
if stat.S_ISDIR(sinfo[stat.ST_MODE]):
if mydev == sinfo[stat.ST_DEV]:
dsize += getSubdirSize(curpath)
elif stat.S_ISREG(sinfo[stat.ST_MODE]):
dsize += sinfo[stat.ST_SIZE]
else:
pass
return dsize
return getSubdirSize(dir)/1024
## Get the amount of RAM not used by /tmp.
# @return The amount of available memory in kilobytes.
def memAvailable():
tram = memInstalled()
ramused = getDirSize("/tmp")
return tram - ramused
## Get the amount of RAM installed in the machine.
# @return The amount of installed memory in kilobytes.
def memInstalled():
f = open("/proc/meminfo", "r")
lines = f.readlines()
f.close()
for l in lines:
if l.startswith("MemTotal:"):
fields = string.split(l)
mem = fields[1]
break
return int(mem)
## Suggest the size of the swap partition that will be created.
# @param quiet Should size information be logged?
# @return A tuple of the minimum and maximum swap size, in megabytes.
def swapSuggestion(quiet=0):
mem = memInstalled()/1024
mem = ((mem/16)+1)*16
if not quiet:
log.info("Detected %sM of memory", mem)
if mem <= 256:
minswap = 256
maxswap = 512
else:
if mem > 2048:
minswap = 1024
maxswap = 2048 + mem
else:
minswap = mem
maxswap = 2*mem
if not quiet:
log.info("Swap attempt of %sM to %sM", minswap, maxswap)
return (minswap, maxswap)
## Create a directory path. Don't fail if the directory already exists.
# @param dir The directory path to create.
def mkdirChain(dir):
try:
os.makedirs(dir, 0755)
except OSError as e:
try:
if e.errno == EEXIST and stat.S_ISDIR(os.stat(dir).st_mode):
return
except:
pass
log.error("could not create directory %s: %s" % (dir, e.strerror))
## Get the total amount of swap memory.
# @return The total amount of swap memory in kilobytes, or 0 if unknown.
def swapAmount():
f = open("/proc/meminfo", "r")
lines = f.readlines()
f.close()
for l in lines:
if l.startswith("SwapTotal:"):
fields = string.split(l)
return int(fields[1])
return 0
## Copy a device node.
# Copies a device node by looking at the device type, major and minor device
# numbers, and doing a mknod on the new device name.
#
# @param src The name of the source device node.
# @param dest The name of the new device node to create.
def copyDeviceNode(src, dest):
filestat = os.lstat(src)
mode = filestat[stat.ST_MODE]
if stat.S_ISBLK(mode):
type = stat.S_IFBLK
elif stat.S_ISCHR(mode):
type = stat.S_IFCHR
else:
# XXX should we just fallback to copying normally?
raise RuntimeError, "Tried to copy %s which isn't a device node" % (src,)
os.mknod(dest, mode | type, filestat.st_rdev)
## Get the PPC machine variety type.
# @return The PPC machine type, or 0 if not PPC.
def getPPCMachine():
if not isPPC():
return 0
ppcMachine = None
machine = None
platform = None
# ppc machine hash
ppcType = { 'Mac' : 'PMac',
'Book' : 'PMac',
'CHRP IBM' : 'pSeries',
'Pegasos' : 'Pegasos',
'Efika' : 'Efika',
'iSeries' : 'iSeries',
'pSeries' : 'pSeries',
'PReP' : 'PReP',
'CHRP' : 'pSeries',
'Amiga' : 'APUS',
'Gemini' : 'Gemini',
'Shiner' : 'ANS',
'BRIQ' : 'BRIQ',
'Teron' : 'Teron',
'AmigaOne' : 'Teron',
'Maple' : 'pSeries',
'Cell' : 'pSeries',
'Momentum' : 'pSeries',
'PS3' : 'PS3'
}
f = open('/proc/cpuinfo', 'r')
lines = f.readlines()
f.close()
for line in lines:
if line.find('machine') != -1:
machine = line.split(':')[1]
elif line.find('platform') != -1:
platform = line.split(':')[1]
for part in (machine, platform):
if ppcMachine is None and part is not None:
for type in ppcType.items():
if part.find(type[0]) != -1:
ppcMachine = type[1]
if ppcMachine is None:
log.warning("Unable to find PowerPC machine type")
elif ppcMachine == 0:
log.warning("Unknown PowerPC machine type: %s" %(ppcMachine,))
return ppcMachine
## Get the powermac machine ID.
# @return The powermac machine id, or 0 if not PPC.
def getPPCMacID():
machine = None
if not isPPC():
return 0
if getPPCMachine() != "PMac":
return 0
f = open('/proc/cpuinfo', 'r')
lines = f.readlines()
f.close()
for line in lines:
if line.find('machine') != -1:
machine = line.split(':')[1]
machine = machine.strip()
return machine
log.warning("No Power Mac machine id")
return 0
## Get the powermac generation.
# @return The powermac generation, or 0 if not powermac.
def getPPCMacGen():
# XXX: should NuBus be here?
pmacGen = ['OldWorld', 'NewWorld', 'NuBus']
if not isPPC():
return 0
if getPPCMachine() != "PMac":
return 0
f = open('/proc/cpuinfo', 'r')
lines = f.readlines()
f.close()
gen = None
for line in lines:
if line.find('pmac-generation') != -1:
gen = line.split(':')[1]
break
if gen is None:
log.warning("Unable to find pmac-generation")
for type in pmacGen:
if gen.find(type) != -1:
return type
log.warning("Unknown Power Mac generation: %s" %(gen,))
return 0
## Determine if the hardware is an iBook or PowerBook
# @return 1 if so, 0 otherwise.
def getPPCMacBook():
if not isPPC():
return 0
if getPPCMachine() != "PMac":
return 0
f = open('/proc/cpuinfo', 'r')
lines = f.readlines()
f.close()
for line in lines:
if not string.find(string.lower(line), 'book') == -1:
return 1
return 0
cell = None
## Determine if the hardware is the Cell platform.
# @return True if so, False otherwise.
def isCell():
global cell
if cell is not None:
return cell
cell = False
if not isPPC():
return cell
f = open('/proc/cpuinfo', 'r')
lines = f.readlines()
f.close()
for line in lines:
if not string.find(line, 'Cell') == -1:
cell = True
return cell
mactel = None
## Determine if the hardware is an Intel-based Apple Mac.
# @return True if so, False otherwise.
def isMactel():
global mactel
if mactel is not None:
return mactel
if not isX86():
mactel = False
elif not os.path.exists("/usr/sbin/dmidecode"):
mactel = False
else:
buf = execWithCapture("/usr/sbin/dmidecode",
["dmidecode", "-s", "system-manufacturer"])
if buf.lower().find("apple") != -1:
mactel = True
else:
mactel = False
return mactel
efi = None
## Determine if the hardware supports EFI.
# @return True if so, False otherwise.
def isEfi():
global efi
if efi is not None:
return efi
efi = False
# XXX need to make sure efivars is loaded...
if os.path.exists("/sys/firmware/efi"):
efi = True
return efi
## Generate the /etc/rpm/macros file.
# @param root The root of the filesystem to create the files in.
def writeRpmPlatform(root="/"):
import rpmUtils.arch
if os.access("%s/etc/rpm/platform" %(root,), os.R_OK):
return
if not os.access("%s/etc/rpm" %(root,), os.X_OK):
os.mkdir("%s/etc/rpm" %(root,))
myarch = rpmUtils.arch.canonArch
# now allow an override with rpmarch=i586 on the command line (#101971)
if flags.targetarch != None:
myarch = flags.targetarch
# now make the current install believe it, too
rpmUtils.arch.canonArch = myarch
# FIXME: writing /etc/rpm/macros feels wrong somehow
# temporary workaround for #92285
if not (myarch.startswith("ppc64") or
myarch in ("s390x", "sparc64", "x86_64", "ia64")):
return
if os.access("%s/etc/rpm/macros" %(root,), os.R_OK):
if myarch.startswith("ppc64") or myarch == "sparc64":
f = open("%s/etc/rpm/macros" %(root,), 'r+')
lines = f.readlines()
addPrefer = True
for line in lines:
if line.startswith("%_prefer_color"):
addPrefer = False
if addPrefer:
f.write("%_prefer_color 1\n")
f.close()
return
else:
return
f = open("%s/etc/rpm/macros" %(root,), 'w+')
f.write("%_transaction_color 3\n")
if myarch.startswith("ppc64") or myarch == "sparc64":
f.write("%_prefer_color 1\n")
f.close()
# Architecture checking functions
def isX86(bits=None):
arch = os.uname()[4]
# x86 platforms include:
# i*86
# athlon*
# x86_64
# amd*
# ia32e
if bits is None:
if (arch.startswith('i') and arch.endswith('86')) or \
arch.startswith('athlon') or arch.startswith('amd') or \
arch == 'x86_64' or arch == 'ia32e':
return True
elif bits == 32:
if arch.startswith('i') and arch.endswith('86'):
return True
elif bits == 64:
if arch.startswith('athlon') or arch.startswith('amd') or \
arch == 'x86_64' or arch == 'ia32e':
return True
return False
def isPPC():
return os.uname()[4].startswith('ppc')
def isS390():
return os.uname()[4].startswith('s390')
def isIA64():
return os.uname()[4] == 'ia64'
def isAlpha():
return os.uname()[4].startswith('alpha')
def isSparc():
return os.uname()[4].startswith('sparc')
def getArch():
if isX86(bits=32):
return 'i386'
elif isX86(bits=64):
return 'x86_64'
elif isPPC():
return 'ppc'
elif isAlpha():
return 'alpha'
elif isSparc():
return 'sparc'
else:
return os.uname()[4]
def isConsoleOnVirtualTerminal():
# XXX PJFIX is there some way to ask the kernel this instead?
if isS390():
return False
return not flags.serial
def strip_markup(text):
if text.find("<") == -1:
return text
r = ""
inTag = False
for c in text:
if c == ">" and inTag:
inTag = False
continue
elif c == "<" and not inTag:
inTag = True
continue
elif not inTag:
r += c
return r.encode("utf-8")
def notify_kernel(path, action="change"):
""" Signal the kernel that the specified device has changed. """
log.debug("notifying kernel of '%s' event on device %s" % (action, path))
path = os.path.join(path, "uevent")
if not path.startswith("/sys/") or not os.access(path, os.W_OK):
log.debug("sysfs path '%s' invalid" % path)
raise ValueError("invalid sysfs path")
f = open(path, "a")
f.write("%s\n" % action)
f.close()
def get_sysfs_path_by_name(dev_name, class_name="block"):
dev_name = os.path.basename(dev_name)
sysfs_class_dir = "/sys/class/%s" % class_name
dev_path = os.path.join(sysfs_class_dir, dev_name)
if os.path.exists(dev_path):
return dev_path
def numeric_type(num):
""" Verify that a value is given as a numeric data type.
Return the number if the type is sensible or raise ValueError
if not.
"""
if num is None:
num = 0
elif not (isinstance(num, int) or \
isinstance(num, long) or \
isinstance(num, float)):
raise ValueError("value (%s) must be either a number or None" % num)
return num
def writeReiplMethod(reipl_path, reipl_type):
filename = "%s/reipl_type" % (reipl_path,)
try:
f = open(filename, "w")
except Exception, e:
message = _("Error: On open, cannot set reIPL method to %(reipl_type)s "
"(%(filename)s: %(e)s)" % {'reipl_type': reipl_type,
'filename': filename,
'e': e})
log.warning(message)
raise Exception (message)
try:
f.write(reipl_type)
f.flush()
except Exception, e:
message = _("Error: On write, cannot set reIPL method to "
"%(reipl_type)s (%(filename)s: %(e)s)" \
% {'reipl_type': reipl_type, 'filename': filename, 'e': e})
log.warning(message)
raise Exception (message)
try:
f.close()
except Exception, e:
message = _("Error: On close, cannot set reIPL method to "
"%(reipl_type)s (%(filename)s: %(e)s)" \
% {'reipl_type': reipl_type, 'filename': filename, 'e': e})
log.warning(message)
raise Exception (message)
def reIPLonCCW(iplsubdev, reipl_path):
device = ""
try:
device = os.readlink("/sys/block/" + iplsubdev + "/device").split('/')[-1]
writeReiplMethod(reipl_path, 'ccw')
try:
f = open("%s/ccw/device" % (reipl_path,), "w")
f.write(device)
f.close()
except Exception, e:
message = _("Error: Could not set %(device)s as reIPL device "
"(%(e)s)" % {'device': device, 'e': e})
log.warning(message)
raise Exception (message)
try:
f = open("%s/ccw/loadparm" % (reipl_path,), "w")
f.write("\n")
f.close()
except Exception, e:
message = _("Error: Could not reset loadparm (%s)" % (e,))
log.warning(message)
raise Exception (message)
try:
f = open("%s/ccw/parm" % (reipl_path,), "w")
f.write("\n")
f.close()
except Exception, e:
message = _("Warning: Could not reset parm (%s)" % (e,))
log.warning(message)
# do NOT raise an exception since this might not exist or not be writable
log.info("ccw reIPL using DASD %s" % (device,))
except Exception, e:
try:
message = e.args[0]
except:
message = e.__str__ ()
log.info("Caught exception %s", (message,))
return (message,
(_("After shutdown, please perform a manual IPL from DASD device %s to continue "
"installation") % (device,)))
return None
def reIPLonFCP(iplsubdev, reipl_path):
fcpvalue = { "device": "", "wwpn": "", "lun": "" }
try:
syspath = "/sys/block/" + iplsubdev + "/device"
fcpprops = [ ("hba_id", "device"), ("wwpn", "wwpn"), ("fcp_lun", "lun") ]
# Read in values to change.
# This way, if we can't set FCP mode, we can tell the user what to manually reboot to.
for (syspath_property, reipl_property) in fcpprops:
try:
f = open(syspath + "/" + syspath_property, "r")
value = f.read().strip()
fcpvalue[reipl_property] = value
f.close()
except Exception, e:
message = _("Error: reading FCP property %(syspath_property)s "
"for reIPL (%(e)s)" \
% {'syspath_property': syspath_property, 'e': e})
log.warning(message)
raise Exception (message)
writeReiplMethod(reipl_path, 'fcp')
# Write out necessary parameters.
for (syspath_property, reipl_property) in fcpprops:
try:
f = open("%s/fcp/%s" % (reipl_path, reipl_property,), "w")
f.write(fcpvalue[reipl_property])
f.close()
except Exception, e:
message = _("Error: writing FCP property %(reipl_property)s "
"for reIPL (%(e)s)" \
% {'reipl_property': reipl_property, 'e': e})
log.warning(message)
raise Exception (message)
defaultprops = [ ("bootprog", "0"), ("br_lba", "0") ]
# Write out default parameters.
for (reipl_property, default_value) in defaultprops:
try:
f = open("%s/fcp/%s" % (reipl_path, reipl_property,), "w")
f.write (default_value)
f.close()
except Exception, e:
message = _("Error: writing default FCP property "
"%(reipl_property)s for reIPL (%(e)s)" \
% {'reipl_property': reipl_property, 'e': e})
log.warning(message)
raise Exception (message)
log.info("fcp reIPL using FCP %(device)s, WWPN %(wwpn)s, LUN %(lun)s" % (fcpvalue))
except Exception, e:
try:
message = e.args[0]
except:
message = e.__str__ ()
log.info("Caught exception %s", (message,))
return (message,
(_("After shutdown, please perform a manual IPL from FCP %(device)s with WWPN %(wwpn)s "
"and LUN %(lun)s to continue installation") % (fcpvalue)))
return None
def reIPLtrigger(anaconda):
if not isS390():
return
if anaconda.canReIPL:
log.info("reIPL configuration successful => reboot")
os.kill(os.getppid(), signal.SIGUSR2)
else:
log.info("reIPL configuration failed => halt")
os.kill(os.getppid(), signal.SIGUSR1)
def reIPL(anaconda, loader_pid):
instruction = _("After shutdown, please perform a manual IPL from the device "
"now containing /boot to continue installation")
reipl_path = "/sys/firmware/reipl"
try:
ipldev = anaconda.platform.bootDevice().disk.name
except:
ipldev = None
if ipldev is None:
message = _("Error determining boot device's disk name")
log.warning(message)
return (message, instruction)
message = (_("The mount point /boot or / is on a disk that we are not familiar with"), instruction)
if ipldev.startswith("dasd"):
message = reIPLonCCW(ipldev, reipl_path)
elif ipldev.startswith("sd"):
message = reIPLonFCP(ipldev, reipl_path)
if message is None:
anaconda.canReIPL = True
else:
anaconda.canReIPL = False
log.info(message)
reIPLtrigger(anaconda)
# the final return is either None if reipl configuration worked (=> reboot),
# or a two-item list with errorMessage and rebootInstr (=> shutdown)
return message
def resetRpmDb(rootdir):
for rpmfile in glob.glob("%s/var/lib/rpm/__db.*" % rootdir):
try:
os.unlink(rpmfile)
except Exception, e:
log.debug("error %s removing file: %s" %(e,rpmfile))
def parseNfsUrl(nfsurl):
options = ''
host = ''
path = ''
if nfsurl:
s = nfsurl.split(":")
s.pop(0)
if len(s) >= 3:
(options, host, path) = s[:3]
elif len(s) == 2:
(host, path) = s
else:
host = s[0]
return (options, host, path)