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|
#!/usr/bin/env python
#
# check_archlinux.py
#
# Written by Scott Horowitz <stonecrest@gmail.com>
# Graphical dependency tree by Cesar G. Miguel <cesargm@ime.usp.br>
#
# This script currently checks for a number of issues in your ABS tree:
# 1. Directories with missing PKGBUILDS
# 2. Duplicate PKGBUILDs
# 3. Missing (make-)dependencies, taking into account 'provides'
# 4. Provisioned dependencies
# 5. Circular dependencies
# 6. Valid arch's in PKGBUILDS
# 7. Missing packages in Arch repos
# 8. PKGBUILD names that don't match their directory
# 9. Hierarchy of repos (e.g., that a core package doesn't depend on
# a non-core package)
# It can also, optionally, generate a graphical representation of the
# dependency tree.
#
# Todo:
# 1. Accommodate testing repo?
abs_conf_dir = "/etc/abs"
valid_archs = ['i686', 'x86_64']
cvs_tags = {'i686': 'CURRENT', 'x86_64': 'CURRENT-64'}
include_paths = ['core', 'extra', 'community', 'unstable']
pkgdir_path_depth = 3
base_server = "ftp.archlinux.org" # Must be ftp site
# Ensure that core repo only depends on core, and the extra repo only
# depends on core and extra, etc.
repo_hierarchy = {'core': ('core'), \
'extra': ('core', 'extra'), \
'unstable': ('core', 'extra', 'unstable'), \
'community': ('core', 'extra', 'unstable', 'community')}
pkgname_str = "pkgname="
dep_str = "depends=("
makedep_str = "makedepends=("
provides_str = "provides=("
arch_str = "arch=("
pkgver_str = "pkgver="
pkgrel_str = "pkgrel="
build_str = "build()"
source_str = "source="
url_str = "url="
mathlist = (">=", "<=", "=", ">", "<")
sup_tag_str = "*default tag="
import os, sys, getopt, tempfile
from ftplib import FTP
try:
import pydot
HAS_PYDOT = True
except:
HAS_PYDOT = False
def print_heading(heading):
print ""
print "=" * (len(heading) + 4)
print "= " + heading + " ="
print "=" * (len(heading) + 4)
def print_subheading(subheading):
print ""
print subheading
print "-" * (len(subheading) + 2)
def rmgeneric(path, __func__):
try:
__func__(path)
except OSError, (errno, strerror):
pass
def removeall(path):
if not os.path.isdir(path):
return
files=os.listdir(path)
for x in files:
fullpath=os.path.join(path, x)
if os.path.isfile(fullpath):
f=os.remove
rmgeneric(fullpath, f)
elif os.path.isdir(fullpath):
removeall(fullpath)
f=os.rmdir
rmgeneric(fullpath, f)
def update_var(line, user_vars, pkgpath):
if line.count("$") > 0:
export_line = ""
for var in user_vars:
if line.count(var[0]) > 0:
export_line = export_line + var[0] + "=" + var[1] + " && "
if line.startswith("(") and line.endswith(")"):
line = line[1:-1]
export_line = export_line + "echo \"" + line + "\""
line = os.popen(export_line).read().replace("\n", "")
return line
def split_dep_prov_symbol(dep):
# Splits 'foo>=1.2.3' into ('foo', '1.2.3', '>=')
prov = ""
symbol = ""
for char in mathlist:
pos = dep.find(char)
if pos > -1:
prov = dep[pos:].replace(char, "")
dep = dep[:pos]
symbol = char
break
return (dep, prov, symbol)
def repo_from_path(path):
# Community HACK: community still has old
# community/category/pkgname/PKGBUILD path - accomodate for this
if path.split("/")[-1 * (pkgdir_path_depth + 1)] == "community":
return path.split("/")[-1 * (pkgdir_path_depth + 1)]
return path.split("/")[-1 * pkgdir_path_depth]
def create_supfile(sourcefile, destfile, newtag):
o = open(sourcefile, 'r')
info = o.read()
o.close()
lines = info.split("\n")
o = open(destfile, 'w')
for line in lines:
line = line.strip()
if line[:len(sup_tag_str)] == sup_tag_str:
line = sup_tag_str + newtag
o.write(line + "\n")
o.close()
def get_deps_provides_etc(pkgpath):
# Parse PKGBUILD for name, depends, makedepends, provides, arch's, and version
o = open(pkgpath, 'r')
info = o.read()
o.close()
lines = info.split("\n")
deps = []
provides = []
archs = []
makedeps = []
array = []
user_vars = []
continue_line = False
for line in lines:
line = line.strip()
if line.find("#") > -1:
line = line[:line.find("#")].strip()
if not continue_line:
deps_line = False
provides_line = False
arch_line = False
makedeps_line = False
if line[:len(dep_str)] == dep_str:
line = line.replace(dep_str,"")
deps_line = True
elif line[:len(makedep_str)] == makedep_str:
line = line.replace(makedep_str,"")
makedeps_line = True
elif line[:len(provides_str)] == provides_str:
line = line.replace(provides_str,"")
provides_line = True
elif line[:len(arch_str)] == arch_str:
line = line.replace(arch_str, "")
arch_line = True
elif line[:len(pkgname_str)] == pkgname_str:
pkgname = line.replace(pkgname_str, "")
if pkgname.startswith("\"") and pkgname.endswith("\""):
pkgname = pkgname[1:-1]
pkgname = update_var(pkgname, user_vars, pkgpath)
user_vars.append([pkgname_str, pkgname])
line = ""
elif line[:len(pkgver_str)] == pkgver_str:
pkgver = line.replace(pkgver_str, "")
if pkgver.startswith("\"") and pkgver.endswith("\""):
pkgver = pkgver[1:-1]
pkgver = update_var(pkgver, user_vars, pkgpath)
user_vars.append([pkgver_str[:-1], pkgver])
line = ""
elif line[:len(pkgrel_str)] == pkgrel_str:
pkgrel = line.replace(pkgrel_str, "")
if pkgrel.startswith("\"") and pkgrel.endswith("\""):
pkgrel = pkgrel[1:-1]
pkgrel = update_var(pkgrel, user_vars, pkgpath)
user_vars.append([pkgrel_str[:-1], pkgrel])
line = ""
elif line[:len(build_str)] == build_str:
break
elif not continue_line:
if line.count("=") == 1 and line.count(" ") == 0 and line[:1] != "#" and \
line[:len(source_str)] != source_str and line[:len(url_str)] != url_str:
split = line.split("=")
for item in range(len(split)):
split[item] = update_var(split[item], user_vars, pkgpath)
user_vars.append(split)
line = ""
if len(line) > 0:
pos = line.find(")")
if pos > -1:
# strip everything from closing paranthesis on
# since some PKGBUILDS have comments after the
# depends array
line = line[:pos]
line = line.split(' ')
for i in range(len(line)):
line[i] = line[i].replace("'","").replace('"','')
line[i] = update_var(line[i], user_vars, pkgpath)
if len(line[i]) > 0:
if deps_line:
deps.append(line[i])
array=deps
elif provides_line:
provides.append(line[i])
array=provides
elif arch_line:
archs.append(line[i])
array=archs
elif makedeps_line:
makedeps.append(line[i])
array=makedeps
if array and (array[-1] == "\\" or array[-1][-1] == "\\"):
# continue reading deps/provides on next line
if array[-1] == "\\":
array.pop(-1)
else:
array[-1] = array[-1].replace("\\", "")
continue_line = True
else:
continue_line = False
version = pkgver + "-" + pkgrel
return (pkgname, deps, makedeps, provides, archs, version)
def get_pkgbuilds_in_dir(rootdir):
# Recursively populates pkgbuild_deps, pkgbuild_paths, etc.
# dicts with info from each PKGBUILD found in rootdir:
if rootdir != absroot:
if rootdir.count("/") == (absroot.count("/")+1) and rootdir not in curr_include_paths:
return
pkgfound = False
for f in os.listdir(rootdir):
fpath = rootdir + "/" + f
if os.path.isdir(fpath):
get_pkgbuilds_in_dir(fpath)
elif f == 'PKGBUILD':
pkgfound = True
name = rootdir.split("/")[-1]
if name in pkgbuild_deps:
dups.append(fpath.replace(absroot, "") + " vs. " + pkgbuild_paths[name].replace(absroot, ""))
else:
(pkgname, deps, makedeps, provides, archs, version) = get_deps_provides_etc(fpath)
pkgbuild_deps[pkgname] = deps
pkgbuild_makedeps[pkgname] = makedeps
pkgbuild_paths[pkgname] = fpath
pkgbuild_archs[pkgname] = archs
pkgbuild_versions[pkgname] = version
# We'll store the provides "backwards" compared to
# the other dicts. This will make searching for
# provides easier by being able to look up the
# provide name itself and find what provides it
for provide in provides:
pkgbuild_provides[provide] = pkgname
if pkgname != name:
mismatches.append(pkgname + " vs. " + fpath.replace(absroot, ""))
if not pkgfound and rootdir != absroot:
repo = rootdir.replace(absroot, "").split("/")[1]
num_slashes = pkgdir_path_depth - 1
# Community HACK: community still has old
# community/category/pkgname/PKGBUILD path - accomodate for this
if repo == "community" and rootdir.replace(absroot, "").count("/") == num_slashes + 1 and rootdir.split("/")[-1] != "CVS":
misses.append(rootdir.replace(absroot, "") + "/PKGBUILD")
if repo != "community" and rootdir.replace(absroot, "").count("/") == num_slashes:
misses.append(rootdir.replace(absroot, "") + "/PKGBUILD")
def verify_depends_makedepends(verify_makedeps=False):
# Make sure all the deps we parsed are actually packages; also
# ensure we meet dep provisions.
if verify_makedeps:
array = pkgbuild_makedeps
else:
array = pkgbuild_deps
for pkgname in array:
deps = array[pkgname]
pkg_repo = repo_from_path(pkgbuild_paths[pkgname])
deps_to_pop = []
for i in range(len(deps)):
dep = deps[i]
(dep, prov, char) = split_dep_prov_symbol(dep)
try:
x = pkgbuild_deps[dep]
# Check that prov is met too:
if len(prov) > 0:
compare_str = "vercmp " + pkgbuild_versions[dep] + " " + prov
error = False
if char == "<=":
if int(os.popen(compare_str).read().replace("\n", "")) > 0:
error = True
elif char == ">=":
if int(os.popen(compare_str).read().replace("\n", "")) < 0:
error = True
elif char == "=":
if int(os.popen(compare_str).read().replace("\n", "")) != 0:
error = True
elif char == ">":
if int(os.popen(compare_str).read().replace("\n", "")) <= 0:
error = True
elif char == "<":
if int(os.popen(compare_str).read().replace("\n", "")) >= 0:
error = True
if error:
if verify_makedeps:
unmet_makedep_provs.append(pkgname + " --> '" + dep + char + prov + "'")
else:
unmet_dep_provs.append(pkgname + " --> '" + dep + char + prov + "'")
# Check repos fit hierarchy scheme:
dep_repo = repo_from_path(pkgbuild_paths[dep])
try:
valid_repos = repo_hierarchy[pkg_repo]
# Make sure dep repo is one of the valid repos:
if dep_repo not in valid_repos:
if verify_makedeps:
makedep_hierarchy.append(pkg_repo + "/" + pkgname + " depends on " + dep_repo + "/" + dep)
else:
dep_hierarchy.append(pkg_repo + "/" + pkgname + " depends on " + dep_repo + "/" + dep)
except:
pass
except:
# Check if a package provides this dep:
try:
x = pkgbuild_provides[dep]
except:
if verify_makedeps:
missing_makedeps.append(pkgname + " --> '" + dep + "'")
else:
missing_deps.append(pkgname + " --> '" + dep + "'")
deps_to_pop.append(i)
# Pop deps not found from end to beginning:
while len(deps_to_pop) > 0:
deps.pop(deps_to_pop[-1])
deps_to_pop.pop(-1)
def verify_archs():
for pkgname in pkgbuild_archs:
newarch = []
archs = pkgbuild_archs[pkgname]
for arch in archs:
if arch not in valid_archs:
invalid_archs.append(pkgname + " --> " + arch)
else:
newarch.append(arch)
if len(newarch) > 0:
pkgbuild_archs[pkgname] = newarch
def verify_packages(tree_arch):
# Make sure packages exist in Arch repo(s):
ftp = FTP(base_server)
ftp.login()
prev_wd = ""
# Find all repos/archs; marching through them in order will greatly speed
# up searching for ftp files by minimizing the number of .nlst's that we
# have to do.
repos = []
for pkgname in pkgbuild_paths:
pkgrepo = repo_from_path(pkgbuild_paths[pkgname])
if not pkgrepo in repos:
repos.append(pkgrepo)
archs = []
for pkgname in pkgbuild_archs:
pkgarchs = pkgbuild_archs[pkgname]
for arch in pkgarchs:
if not arch in archs:
archs.append(arch)
for r in repos:
for pkgname in pkgbuild_archs:
repo = repo_from_path(pkgbuild_paths[pkgname])
if repo == r:
archs = pkgbuild_archs[pkgname]
pkgver_rel = pkgbuild_versions[pkgname]
for arch in archs:
if arch == tree_arch:
# Check for file:
wd = repo + "/os/" + arch
if wd != prev_wd:
ftpfiles = ftp.nlst(wd)
prev_wd = wd
fname_new = wd + "/" + pkgname + "-" + pkgver_rel + "-" + arch + ".pkg.tar.gz"
fname_old = wd + "/" + pkgname + "-" + pkgver_rel + ".pkg.tar.gz"
if fname_old not in ftpfiles and fname_new not in ftpfiles:
missing_pkgs.append(pkgname + "-" + pkgver_rel + " in " + wd)
ftp.quit()
def subset_superset_path(currpath, currpathnum, paths):
# If a pair of subset/superset paths are found,
# pop the superset one to show the more minimal
# case.
#
# e.g. foo > bar > baz > foo (superset)
# foo > bar > foo (subset)
# --> pop the superset
#
currdeps = currpath.split(">")
currdeps = list(set(currdeps))
currdeps.sort()
pathnum = 0
for path in paths:
if pathnum != currpathnum:
deps = path.split(">")
deps = list(set(deps))
deps.sort()
if len(currdeps) < len(path):
subset = True
for d in currdeps:
if not d in path:
subset = False
break
if subset:
circular_deps.pop(pathnum)
if pathnum <= currpathnum:
currpathnum -= 1
elif len(currdeps) > len(path):
superset = True
for d in path:
if not d in currdeps:
superset = False
break
if superset:
circular_deps.pop(currpathnum)
currpathnum -= 1
pathnum += 1
return True
def unique_path(currpath, paths):
# Returns false if an equivalent path exists in
# paths.
#
# e.g. foo > bar > foo
# bar > foo > bar
#
currdeps = currpath.split(">")
currdeps = list(set(currdeps))
currdeps.sort()
for path in paths:
deps = path.split(">")
deps = list(set(deps))
deps.sort()
if currdeps == deps:
return False
return True
def update_paths(paths, dep, dep2):
# Update paths by appending new paths with dep2
# based on all the different ways we could get
# to dep2. Returns True if a path was updated.
new_path = False
for i in range(len(paths)):
array = paths[i].split(">")
newpath = paths[i] + ">" + dep2
if array[-1] == dep and not dep2 in array and unique_path(newpath, paths):
paths.append(newpath)
new_path = True
return new_path
def check_name_in_recursive_deps(pkgname):
# Retrieve all recursive dependencies from a package and
# determines if pkgname is found in one of its deps.
recursive_deps = []
for dep in pkgbuild_deps[pkgname]:
dep = split_dep_prov_symbol(dep)[0] # Strip any provision
recursive_deps.append(dep)
paths = []
for dep in recursive_deps:
dep = split_dep_prov_symbol(dep)[0] # Strip any provision
paths.append(dep)
searching = True
while searching:
searching = False
for dep in recursive_deps:
for dep2 in pkgbuild_deps[dep]:
dep2 = split_dep_prov_symbol(dep2)[0] # Strip any provision
# This is a HUGE time-saver. Instead of generating every single
# possible path that can yield a circular dep, we'll reduce
# the number greatly by throwing out paths like such:
#
# If we have a path: foo>bar>baz>blah>poop>foo
# We will throw out any:
# foo>...>bar>baz>blah>poop>foo
# foo>...>baz>blah>poop>foo
# foo>...>blah>poop>foo
# and so on. Otherwise we will find hundreds or even thousands
# of possible paths that all essentially represent the same
# circular dep.
#
# However, we will always let pkgname through in order to make
# sure we can find multiple circular deps for a given pkg.
if dep2 not in recursive_deps or dep2 == pkgname:
updated = update_paths(paths, dep, dep2)
if dep2 not in recursive_deps:
recursive_deps.append(dep2)
if updated:
searching = True
# Done searching, store circular deps:
for path in paths:
if path.split(">")[-1] == pkgname:
if unique_path(pkgname + ">" + path, circular_deps):
circular_deps.append(pkgname + ">" + path)
# Reduce any subset/superset path pairs:
pathnum = 0
for path in circular_deps:
subset_superset_path(path, pathnum, circular_deps)
pathnum += 1
def circular_deps_check():
# Check for circular dependencies:
for pkgname in pkgbuild_deps:
check_name_in_recursive_deps(pkgname)
def visualize_repo():
output = 'digraph G { \n \
concentrate = true; \n \
ordering = out; \n \
ranksep=5.0; \n \
node [style=filled,fontsize=8]; \n'
# draws circular dependencies in red
for path in circular_deps:
output += '\t "'+path[0]+'"'
deps = path.split(">")
for d in deps:
output += ' -> "'+d+'"'
output += ' [color=red]\n'
for pkg in pkgbuild_deps.keys():
output += '\t "'+pkg+'" -> { '
for d in pkgbuild_deps[pkg]:
d = split_dep_prov_symbol(d)[0] # Strip any provision
output += '"'+d+'"; '
output += '}\n'
output += '}'
# Uncomment these lines to get a file dump called
# 'output'. This can be used to manually generate
# an image using, e.g., dot -Tsvg output tree.svg
#dump = open('output', 'w')
#dump.write(output)
#dump.close()
fname = 'dependency_tree-' + arch + '.svg'
print "Generating " + fname + "..."
g = pydot.graph_from_dot_data(output)
g.write(fname, prog='dot', format='svg')
def print_result(list, subheading):
if len(list) > 0:
print_subheading(subheading)
for item in list:
print item
def print_results():
print_result(misses, "Missing PKGBUILDs")
print_result(mismatches, "Mismatched Pkgnames")
print_result(dups, "Duplicate PKGBUILDs")
print_result(missing_deps, "Missing Dependencies")
print_result(missing_makedeps, "Missing Makedepends")
print_result(unmet_dep_provs, "Unmet Dependency Provisions")
print_result(unmet_makedep_provs, "Unmet Makedepends Provisions")
print_result(dep_hierarchy, "Repo Hierarchy for Dependencies")
print_result(makedep_hierarchy, "Repo Hierarchy for Makedepends")
print_result(invalid_archs, "Invalid Archs")
print_result(circular_deps, "Circular Dependencies")
print_result(missing_pkgs, "Missing Repo Packages")
print_subheading("Summary")
print "Dirs with missing PKGBUILDs: ", len(misses)
print "Duplicate PKGBUILDs: ", len(dups)
print "Missing (make)dependencies: ", len(missing_deps)+len(missing_makedeps)
print "Unmet provisioned (make)dependencies: ", len(unmet_dep_provs)+len(unmet_makedep_provs)
print "Circular dependencies: ", len(circular_deps)
print "Invalid archs: ", len(invalid_archs)
print "Missing packages in repos: ", len(missing_pkgs)
print "Mismatching PKGBUILD names: ", len(mismatches)
print "Repo hierarchy problems: ", len(dep_hierarchy)+len(makedep_hierarchy)
print ""
def print_usage():
print ""
print "Usage: check_archlinux [OPTION]"
print ""
print "Options:"
print " --abs-tree=<path> REQUIRED Check specified tree (assumes the abs tree"
print " is i686 unless overridden with --arch)"
print " --arch=<arch> OPTIONAL Use specified arch (e.g. 'x86_64')"
print " -g OPTIONAL Generate graphical dependency tree(s)"
print " -h, --help OPTIONAL Show this help and exit"
print ""
print "Examples:"
print "\n Check existing i686 abs tree:"
print " check_archlinux --abs-tree=/var/abs"
print "\n Check existing x86_64 abs tree and also generate dep tree image:"
print " check_archlinux --abs-tree=/var/abs --arch=x86_64 -g"
print ""
graphdeptree = False
user_absroot = ""
user_arch = ""
try:
opts, args = getopt.getopt(sys.argv[1:], "g", ["abs-tree=", "arch="])
except getopt.GetoptError:
print_usage()
sys.exit()
if opts != []:
for o, a in opts:
if o in ("-g"):
graphdeptree = True
if not HAS_PYDOT:
print "You must install pydot to generate a graphical dependency tree. Aborting..."
sys.exit()
elif o in ("--abs-tree"):
user_absroot = a
elif o in ("--arch"):
user_arch = a
if user_arch not in valid_archs:
print "You did not specify a valid arch. Aborting..."
sys.exit()
else:
print_usage()
sys.exit()
if args != []:
for a in args:
if a in ("play", "pause", "stop", "next", "prev", "pp", "info", "status", "repeat", "shuffle"):
self.single_connect_for_passed_arg(a)
else:
print_usage()
sys.exit()
if len(user_absroot) == 0:
print_usage()
sys.exit()
if len(user_arch) == 0:
user_arch = valid_archs[0] # i686 default..
if len(user_absroot) > 0:
print "Warning: Ensure your ABS tree is clean to prevent false positives."
try:
for arch in valid_archs:
if len(user_arch) == 0 or user_arch == arch:
print_heading(arch + " Integrity Check")
absroot = user_absroot
curr_include_paths = []
for repo in include_paths:
curr_include_paths.append(absroot + "/" + repo)
# Re-init vars for new abs tree:
pkgbuild_deps = {} # pkgname: [dep1, dep2>foo, dep3=bar, ...]
pkgbuild_makedeps = {} # pkgname: [dep1, dep2>foo, dep3=bar, ...]
pkgbuild_provides = {} # provide_name: pkgname
pkgbuild_paths = {} # pkgname: /var/abs/foo/bar/pkgname/PKGBUILD
pkgbuild_archs = {} # pkgname: [i686, x86_64]
pkgbuild_versions = {} # pkname: 1.0.4-2
# circular_deps is not a dict to accommodate multiple circ deps for a given pkg
circular_deps = [] # pkgname>dep1>dep2>...>pkgname
mismatches = []
misses = []
dups = []
missing_deps = []
unmet_dep_provs = []
dep_hierarchy = []
missing_makedeps = []
unmet_makedep_provs = []
makedep_hierarchy = []
invalid_archs = []
missing_pkgs = []
# Verify stuff for abs tree:
print "\nPerforming integrity checks..."
print "==> parsing pkgbuilds"
get_pkgbuilds_in_dir(absroot)
print "==> checking dependencies"
verify_depends_makedepends()
print "==> checking makedepends"
verify_depends_makedepends(True)
print "==> checking archs"
verify_archs()
print "==> checking for circular dependencies"
circular_deps_check()
print "==> checking repo packages"
verify_packages(arch)
print_results()
if graphdeptree:
visualize_repo()
except:
sys.exit()
# vim: set ts=2 sw=2 noet :
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