# treebuilder.py - handle arch-specific tree building stuff using templates # # Copyright (C) 2011 Red Hat, Inc. # # 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): Will Woods import logging logger = logging.getLogger("pylorax.treebuilder") import os, re from os.path import basename, isdir from subprocess import check_call, check_output from sysutils import joinpaths, remove, linktree from base import DataHolder from ltmpl import LoraxTemplateRunner import imgutils templatemap = { 'i386': 'x86.tmpl', 'x86_64': 'x86.tmpl', 'ppc': 'ppc.tmpl', 'ppc64': 'ppc.tmpl', 'sparc': 'sparc.tmpl', 'sparc64': 'sparc.tmpl', 's390': 's390.tmpl', 's390x': 's390.tmpl', } class RuntimeBuilder(object): '''Builds the anaconda runtime image.''' def __init__(self, product, arch, yum, templatedir=None): root = yum.conf.installroot # use a copy of product so we can modify it locally product = product.copy() product.name = product.name.lower() self.vars = DataHolder(arch=arch, product=product, yum=yum, root=root, basearch=arch.basearch, libdir=arch.libdir) self.yum = yum self._runner = LoraxTemplateRunner(inroot=root, outroot=root, yum=yum) self._runner.templatedir = templatedir self._runner.defaults = self.vars def install(self): '''Install packages and do initial setup with runtime-install.tmpl''' self._runner.run("runtime-install.tmpl") def postinstall(self, configdir="/usr/share/lorax/config_files"): '''Do some post-install setup work with runtime-postinstall.tmpl''' # link configdir into runtime root beforehand configdir_path = "tmp/config_files" fullpath = joinpaths(self.vars.root, configdir_path) if os.path.exists(fullpath): remove(fullpath) linktree(configdir, fullpath) self._runner.run("runtime-postinstall.tmpl", configdir=configdir_path) def cleanup(self): '''Remove unneeded packages and files with runtime-cleanup.tmpl''' # get removelocales list first localedir = joinpaths(self.vars.root, "usr/share/locale") langtable = joinpaths(self.vars.root, "usr/share/anaconda/lang-table") locales = set([d for d in os.listdir(localedir) if isdir(joinpaths(localedir,d))]) keeplocales = [line.split()[1] for line in open(langtable)] removelocales = locales.difference(keeplocales) self._runner.run("runtime-cleanup.tmpl", removelocales=removelocales) def create_runtime(self, outfile="/tmp/squashfs.img"): # make live rootfs image - must be named "LiveOS/rootfs.img" for dracut workdir = joinpaths(os.path.dirname(outfile), "runtime-workdir") fssize = 2 * (1024*1024*1024) # 2GB sparse file compresses down to nothin' os.makedirs(joinpaths(workdir, "LiveOS")) imgutils.mkext4img(self.vars.root, joinpaths(workdir, "LiveOS/rootfs.img"), label="Anaconda", size=fssize) # squash the live rootfs and clean up workdir imgutils.mksquashfs(workdir, outfile) remove(workdir) class TreeBuilder(object): '''Builds the arch-specific boot images. inroot should be the installtree root (the newly-built runtime dir)''' def __init__(self, product, arch, inroot, outroot, runtime, templatedir=None): # NOTE: if you pass an arg named "runtime" to a mako template it'll # clobber some mako internal variables - hence "runtime_img". self.vars = DataHolder(arch=arch, product=product, runtime_img=runtime, inroot=inroot, outroot=outroot, basearch=arch.basearch, libdir=arch.libdir, udev_escape=udev_escape) self._runner = LoraxTemplateRunner(inroot, outroot) self._runner.templatedir = templatedir self._runner.defaults = self.vars @property def kernels(self): return findkernels(root=self.vars.inroot) def generate_module_data(self): inroot = self.vars.inroot for kernel in self.kernels: kver = kernel.version ksyms = joinpaths(inroot, "boot/System.map-%s" % kver) logger.info("doing depmod and module-info for %s", kver) check_call(["depmod", "-a", "-F", ksyms, "-b", inroot, kver]) generate_module_info(joinpaths(inroot, "modules", kver)) def rebuild_initrds(self, add_args=[], backup=""): '''Rebuild all the initrds in the tree. If backup is specified, each initrd will be renamed with backup as a suffix before rebuilding. If backup is empty, the existing initrd files will be overwritten.''' dracut = ["/sbin/dracut", "--nomdadmconf", "--nolvmconf"] + add_args if not backup: dracut.append("--force") # XXX FIXME: add anaconda dracut module! for kernel in self.kernels: logger.info("rebuilding %s", kernel.initrd.path) if backup: initrd = joinpaths(self.vars.inroot, kernel.initrd.path) os.rename(initrd, initrd + backup) check_call(["chroot", self.vars.inroot] + \ dracut + [kernel.initrd.path, kernel.version]) def build(self): templatefile = templatemap[self.vars.arch.basearch] self._runner.run(templatefile, kernels=self.kernels) self.treeinfo_data = self.runner.results.treeinfo self.implantisomd5() def implantisomd5(self): for section, data in self.treeinfo_data.items(): if 'boot.iso' in data: iso = joinpaths(self.vars.outroot, data['boot.iso']) check_call(["implantisomd5", iso]) #### TreeBuilder helper functions def findkernels(root="/", kdir="boot"): # To find possible flavors, awk '/BuildKernel/ { print $4 }' kernel.spec flavors = ('debug', 'PAE', 'PAEdebug', 'smp', 'xen') kre = re.compile(r"vmlinuz-(?P.+?\.(?P[a-z0-9_]+)" r"(\.(?P{0}))?)$".format("|".join(flavors))) kernels = [] for f in os.listdir(joinpaths(root, kdir)): match = kre.match(f) if match: kernel = DataHolder(path=joinpaths(kdir, f)) kernel.update(match.groupdict()) # sets version, arch, flavor kernels.append(kernel) # look for associated initrd/initramfs for kernel in kernels: # NOTE: if both exist, the last one found will win for imgname in ("initrd", "initramfs"): i = kernel.path.replace("vmlinuz", imgname, 1) + ".img" if os.path.exists(joinpaths(root, i)): kernel.initrd = DataHolder(path=i) return kernels def generate_module_info(moddir, outfile=None): def module_desc(mod): return check_output(["modinfo", "-F", "description", mod]).strip() def read_module_set(name): return set(l.strip() for l in open(joinpaths(moddir,name)) if ".ko" in l) modsets = {'scsi':read_module_set("modules.block"), 'eth':read_module_set("modules.networking")} modinfo = list() for root, dirs, files in os.walk(moddir): for modtype, modset in modsets.items(): for mod in modset.intersection(files): # modules in this dir (name, ext) = os.path.splitext(mod) # foo.ko -> (foo, .ko) desc = module_desc(joinpaths(root,mod)) or "%s driver" % name modinfo.append(dict(name=name, type=modtype, desc=desc)) out = open(outfile or joinpaths(moddir,"module-info"), "w") for mod in sorted(modinfo, key=lambda m: m.get('name')): out.write('{name}\n\t{type}\n\t"{desc:.65}"\n'.format(**mod)) # udev whitelist: 'a-zA-Z0-9#+.:=@_-' (see is_whitelisted in libudev-util.c) udev_blacklist=' !"$%&\'()*,/;<>?[\\]^`{|}~' # ASCII printable, minus whitelist udev_blacklist += ''.join(chr(i) for i in range(32)) # ASCII non-printable def udev_escape(label): out = u'' for ch in label.decode('utf8'): out += ch if ch not in udev_blacklist else u'\\x%02x' % ord(ch) return out.encode('utf8')