# # isys.py - installer utilitiy functions and glue for C module # # Matt Wilson # Erik Troan # # Copyright 2001 Red Hat, Inc. # # This software may be freely redistributed under the terms of the GNU # library public license. # # You should have received a copy of the GNU Library Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. # import kudzu import _isys import string import os import os.path mountCount = {} raidCount = {} MIN_RAM = _isys.MIN_RAM MIN_GUI_RAM = _isys.MIN_GUI_RAM EARLY_SWAP_RAM = _isys.EARLY_SWAP_RAM def pathSpaceAvailable(path, fsystem = "ext2"): return _isys.devSpaceFree(path) def spaceAvailable(device, fsystem = "ext2"): mount(device, "/mnt/space", fstype = fsystem) space = _isys.devSpaceFree("/mnt/space/.") umount("/mnt/space") return space def fsSpaceAvailable(fsystem): return _isys.devSpaceFree(fsystem) def raidstop(mdDevice): if raidCount.has_key (mdDevice): if raidCount[mdDevice] > 1: raidCount[mdDevice] = raidCount[mdDevice] - 1 return del raidCount[mdDevice] makeDevInode(mdDevice, "/tmp/md") fd = os.open("/tmp/md", os.O_RDONLY) os.remove("/tmp/md") try: _isys.raidstop(fd) except: pass os.close(fd) def raidstart(mdDevice, aMember): if raidCount.has_key(mdDevice) and raidCount[mdDevice]: raidCount[mdDevice] = raidCount[mdDevice] + 1 return raidCount[mdDevice] = 1 makeDevInode(mdDevice, "/tmp/md") makeDevInode(aMember, "/tmp/member") fd = os.open("/tmp/md", os.O_RDONLY) os.remove("/tmp/md") try: _isys.raidstart(fd, "/tmp/member") except: pass os.close(fd) os.remove("/tmp/member") def raidsb(mdDevice): makeDevInode(mdDevice, "/tmp/md") return raidsbFromDevice("/tmp/md") def raidsbFromDevice(device): fd = os.open(device, os.O_RDONLY) rc = 0 try: rc = _isys.getraidsb(fd) finally: os.close(fd) return rc def losetup(device, file, readOnly = 0): if readOnly: mode = os.O_RDONLY else: mode = os.O_RDWR targ = os.open(file, mode) loop = os.open(device, mode) try: _isys.losetup(loop, targ, file) finally: os.close(loop) os.close(targ) def lochangefd(device, file): loop = os.open(device, os.O_RDONLY) targ = os.open(file, os.O_RDONLY) try: _isys.lochangefd(loop, targ) finally: os.close(loop) os.close(targ) def unlosetup(device): loop = os.open(device, os.O_RDONLY) try: _isys.unlosetup(loop) finally: os.close(loop) def ddfile(file, megs, pw = None): fd = os.open("/dev/zero", os.O_RDONLY); buf = os.read(fd, 1024 * 256) os.close(fd) fd = os.open(file, os.O_RDWR | os.O_CREAT) total = megs * 4 # we write out 1/4 of a meg each time through if pw: (fn, title, text) = pw win = fn(title, text, total - 1) for n in range(total): os.write(fd, buf) if pw: win.set(n) if pw: win.pop() os.close(fd) def mount(device, location, fstype = "ext2", readOnly = 0): location = os.path.normpath(location) # # Apparently we don't need to create to create device nodes for # a device that starts with a '/' (like '/usbdevfs'). # We note whether or not we created a node so we can cleanup later. # createdNode = 0 if device and device != "none" and device[0] != "/": devName = "/tmp/%s" % device makeDevInode(device, devName) device = devName createdNode = 1 if mountCount.has_key(location) and mountCount[location] > 0: mountCount[location] = mountCount[location] + 1 return rc = _isys.mount(fstype, device, location, readOnly) if not rc: mountCount[location] = 1 # did we create a node, if so remove if createdNode: os.unlink(device) return rc def umount(what, removeDir = 1): what = os.path.normpath(what) if not os.path.isdir(what): raise ValueError, "isys.umount() can only umount by mount point" if mountCount.has_key(what) and mountCount[what] > 1: mountCount[what] = mountCount[what] - 1 return rc = _isys.umount(what) if removeDir and os.path.isdir(what): os.rmdir(what) if not rc and mountCount.has_key(what): del mountCount[what] return rc def smpAvailable(): return _isys.smpavailable() htavailable = _isys.htavailable def summitavailable(): try: f = open("/proc/cmdline") line = f.readline() if string.find(line, " summit") != -1: return 1 del f except: pass return _isys.summitavailable() def chroot (path): return _isys.chroot (path) def checkBoot (path): return _isys.checkBoot (path) def swapoff (path): return _isys.swapoff (path) def swapon (path): return _isys.swapon (path) def fbconProbe(path): return _isys.fbconprobe (path) def loadFont(font): return _isys.loadFont (font) def loadKeymap(keymap): return _isys.loadKeymap (keymap) probedList = None def flushDriveDict(): global probedList probedList = None def driveDict(klassArg): global probedList if not probedList: probedList = _isys.ProbedList() probedList.updateIde() probedList.updateScsi() probedList.updateDasd() dict = {} for (klass, dev, descr) in probedList: if (klass == klassArg): dict[dev] = descr return dict def hardDriveDict(): return driveDict("disk") def floppyDriveDict(): return driveDict("floppy") def cdromList(): list = driveDict("cdrom").keys() list.sort() return list def moduleListByType(type): return _isys.modulelist(type) def makeDevInode(name, fn=None): if fn: _isys.mkdevinode(name, fn) return fn path = '/dev/%s' % (name,) try: os.stat(path) except OSError: path = '/tmp/%s' % (name,) _isys.mkdevinode(name, path) return path def mknod(pathname, mode, dev): return _isys.mknod(pathname, mode, dev) def inet_ntoa (addr): return "%d.%d.%d.%d" % ((addr >> 24) & 0x000000ff, (addr >> 16) & 0x000000ff, (addr >> 8) & 0x000000ff, addr & 0x000000ff) def inet_aton (addr): quad = string.splitfields (addr, ".") try: rc = ((string.atoi (quad[0]) << 24) + (string.atoi (quad[1]) << 16) + (string.atoi (quad[2]) << 8) + string.atoi (quad[3])) except IndexError: raise ValueError return rc def inet_calcNetmask (ip): if isinstance (ip, type (0)): addr = inet_ntoa (ip) else: addr = ip quad = string.splitfields (addr, ".") if len (quad) > 0: klass = string.atoi (quad[0]) if klass <= 127: mask = "255.0.0.0"; elif klass <= 191: mask = "255.255.0.0"; else: mask = "255.255.255.0"; return mask def inet_calcNetBroad (ip, nm): if isinstance (ip, type ("")): ipaddr = inet_aton (ip) else: ipaddr = ip if isinstance (nm, type ("")): nmaddr = inet_aton (nm) else: nmaddr = nm netaddr = ipaddr & nmaddr bcaddr = netaddr | (~nmaddr); return (inet_ntoa (netaddr), inet_ntoa (bcaddr)) def inet_calcGateway (bc): if isinstance (bc, type ("")): bcaddr = inet_aton (bc) else: bcaddr = bc return inet_ntoa (bcaddr - 1) def inet_calcNS (net): if isinstance (net, type ("")): netaddr = inet_aton (net) else: netaddr = net return inet_ntoa (netaddr + 1) def parseArgv(str): return _isys.poptParseArgv(str) def getopt(*args): return apply(_isys.getopt, args) def compareDrives(first, second): type1 = first[0:2] type2 = second[0:2] if type1 == "hd": type1 = 0 elif type1 == "sd": type1 = 1 else: type1 = 2 if type2 == "hd": type2 = 0 elif type2 == "sd": type2 = 1 else: type2 = 2 if (type1 < type2): return -1 elif (type1 > type2): return 1 elif first < second: return -1 elif first > second: return 1 return 0 def configNetDevice(device, ip, netmask, gw): return _isys.confignetdevice(device, ip, netmask, gw) def resetResolv(): return _isys.resetresolv() def setResolvRetry(count): return _isys.setresretry(count) def pumpNetDevice(device): # returns None on failure, "" if no nameserver is found, nameserver IP # otherwise return _isys.pumpnetdevice(device) def readExt2Label(device): makeDevInode(device, "/tmp/disk") label = _isys.e2fslabel("/tmp/disk"); os.unlink("/tmp/disk") return label def ext2IsDirty(device): makeDevInode(device, "/tmp/disk") label = _isys.e2dirty("/tmp/disk"); os.unlink("/tmp/disk") return label def ext2HasJournal(device, makeDevNode = 1): if makeDevNode: makeDevInode(device, "/tmp/disk") hasjournal = _isys.e2hasjournal("/tmp/disk"); os.unlink("/tmp/disk") else: hasjournal = _isys.e2hasjournal(device); return hasjournal def ejectCdrom(device): makeDevInode(device, "/tmp/cdrom") fd = os.open("/tmp/cdrom", os.O_RDONLY) # this is a best effort try: _isys.ejectcdrom(fd) except SystemError: pass os.close(fd) os.unlink("/tmp/cdrom") def driveIsRemovable(device): # assume ide if starts with 'hd', and we don't have to create # device beforehand since it just reads /proc/ide if device[:2] == "hd": rc = (_isys.isIdeRemovable("/dev/"+device) == 1) else: makeDevInode(device, "/tmp/disk") rc = (_isys.isScsiRemovable("/tmp/disk") == 1) os.unlink("/tmp/disk") return rc def vtActivate (num): _isys.vtActivate (num) def isPsudoTTY (fd): return _isys.isPsudoTTY (fd) def sync (): return _isys.sync () def isIsoImage(file): return _isys.isisoimage(file) def getGeometry(device): makeDevInode(device, "/tmp/disk") rc = _isys.getGeometry("/tmp/disk") os.unlink("/tmp/disk") return rc def fbinfo(): return _isys.fbinfo() def cdRwList(): if not os.access("/proc/sys/dev/cdrom/info", os.R_OK): return [] f = open("/proc/sys/dev/cdrom/info", "r") lines = f.readlines() f.close() driveList = [] finalDict = {} for line in lines: line = string.split(line, ':', 1) if (line and line[0] == "drive name"): line = string.split(line[1]) # no CDROM drives if not line: return [] for device in line: if device[0:2] == 'sr': device = "scd" + device[2:] driveList.append(device) elif ((line and line[0] == "Can write CD-R") or (line and line[0] == "Can write CD-RW")): line = string.split(line[1]) field = 0 for ability in line: if ability == "1": finalDict[driveList[field]] = 1 field = field + 1 l = finalDict.keys() l.sort() return l def ideCdRwList(): newList = [] for dev in cdRwList(): if dev[0:2] == 'hd': newList.append(dev) return newList def getpagesize(): return _isys.getpagesize() printObject = _isys.printObject bind_textdomain_codeset = _isys.bind_textdomain_codeset