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#!/usr/bin/python
# Usage (the graphviz package must be installed in your distribution)
# ./support/scripts/graph-depends [-p package-name] > test.dot
# dot -Tpdf test.dot -o test.pdf
#
# With no arguments, graph-depends will draw a complete graph of
# dependencies for the current configuration.
# If '-p <package-name>' is specified, graph-depends will draw a graph
# of dependencies for the given package name.
# If '-d <depth>' is specified, graph-depends will limit the depth of
# the dependency graph to 'depth' levels.
#
# Limitations
#
# * Some packages have dependencies that depend on the Buildroot
# configuration. For example, many packages have a dependency on
# openssl if openssl has been enabled. This tool will graph the
# dependencies as they are with the current Buildroot
# configuration.
#
# Copyright (C) 2010-2013 Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
import sys
import subprocess
import argparse
from fnmatch import fnmatch
# Modes of operation:
MODE_FULL = 1 # draw full dependency graph for all selected packages
MODE_PKG = 2 # draw dependency graph for a given package
mode = 0
# Limit drawing the dependency graph to this depth. 0 means 'no limit'.
max_depth = 0
# Whether to draw the transitive dependencies
transitive = True
parser = argparse.ArgumentParser(description="Graph packages dependencies")
parser.add_argument("--check-only", "-C", dest="check_only", action="store_true", default=False,
help="Only do the dependency checks (circular deps...)")
parser.add_argument("--outfile", "-o", metavar="OUT_FILE", dest="outfile",
help="File in which to generate the dot representation")
parser.add_argument("--package", '-p', metavar="PACKAGE",
help="Graph the dependencies of PACKAGE")
parser.add_argument("--depth", '-d', metavar="DEPTH", dest="depth", type=int, default=0,
help="Limit the dependency graph to DEPTH levels; 0 means no limit.")
parser.add_argument("--stop-on", "-s", metavar="PACKAGE", dest="stop_list", action="append",
help="Do not graph past this package (can be given multiple times)." \
+ " Can be a package name or a glob, " \
+ " 'virtual' to stop on virtual packages, or " \
+ "'host' to stop on host packages.")
parser.add_argument("--exclude", "-x", metavar="PACKAGE", dest="exclude_list", action="append",
help="Like --stop-on, but do not add PACKAGE to the graph.")
parser.add_argument("--colours", "-c", metavar="COLOR_LIST", dest="colours",
default="lightblue,grey,gainsboro",
help="Comma-separated list of the three colours to use" \
+ " to draw the top-level package, the target" \
+ " packages, and the host packages, in this order." \
+ " Defaults to: 'lightblue,grey,gainsboro'")
parser.add_argument("--transitive", dest="transitive", action='store_true',
default=False)
parser.add_argument("--no-transitive", dest="transitive", action='store_false',
help="Draw (do not draw) transitive dependencies")
args = parser.parse_args()
check_only = args.check_only
if args.outfile is None:
outfile = sys.stdout
else:
if check_only:
sys.stderr.write("don't specify outfile and check-only at the same time\n")
sys.exit(1)
outfile = open(args.outfile, "w")
if args.package is None:
mode = MODE_FULL
else:
mode = MODE_PKG
rootpkg = args.package
max_depth = args.depth
if args.stop_list is None:
stop_list = []
else:
stop_list = args.stop_list
if args.exclude_list is None:
exclude_list = []
else:
exclude_list = args.exclude_list
transitive = args.transitive
# Get the colours: we need exactly three colours,
# so no need not split more than 4
# We'll let 'dot' validate the colours...
colours = args.colours.split(',',4)
if len(colours) != 3:
sys.stderr.write("Error: incorrect colour list '%s'\n" % args.colours)
sys.exit(1)
root_colour = colours[0]
target_colour = colours[1]
host_colour = colours[2]
allpkgs = []
# Execute the "make <pkg>-show-version" command to get the version of a given
# list of packages, and return the version formatted as a Python dictionary.
def get_version(pkgs):
sys.stderr.write("Getting version for %s\n" % pkgs)
cmd = ["make", "-s", "--no-print-directory" ]
for pkg in pkgs:
cmd.append("%s-show-version" % pkg)
p = subprocess.Popen(cmd, stdout=subprocess.PIPE, universal_newlines=True)
output = p.communicate()[0]
if p.returncode != 0:
sys.stderr.write("Error getting version %s\n" % pkgs)
sys.exit(1)
output = output.split("\n")
if len(output) != len(pkgs) + 1:
sys.stderr.write("Error getting version\n")
sys.exit(1)
version = {}
for i in range(0, len(pkgs)):
pkg = pkgs[i]
version[pkg] = output[i]
return version
# Execute the "make show-targets" command to get the list of the main
# Buildroot PACKAGES and return it formatted as a Python list. This
# list is used as the starting point for full dependency graphs
def get_targets():
sys.stderr.write("Getting targets\n")
cmd = ["make", "-s", "--no-print-directory", "show-targets"]
p = subprocess.Popen(cmd, stdout=subprocess.PIPE, universal_newlines=True)
output = p.communicate()[0].strip()
if p.returncode != 0:
return None
if output == '':
return []
return output.split(' ')
# Execute the "make <pkg>-show-depends" command to get the list of
# dependencies of a given list of packages, and return the list of
# dependencies formatted as a Python dictionary.
def get_depends(pkgs):
sys.stderr.write("Getting dependencies for %s\n" % pkgs)
cmd = ["make", "-s", "--no-print-directory" ]
for pkg in pkgs:
cmd.append("%s-show-depends" % pkg)
p = subprocess.Popen(cmd, stdout=subprocess.PIPE, universal_newlines=True)
output = p.communicate()[0]
if p.returncode != 0:
sys.stderr.write("Error getting dependencies %s\n" % pkgs)
sys.exit(1)
output = output.split("\n")
if len(output) != len(pkgs) + 1:
sys.stderr.write("Error getting dependencies\n")
sys.exit(1)
deps = {}
for i in range(0, len(pkgs)):
pkg = pkgs[i]
pkg_deps = output[i].split(" ")
if pkg_deps == ['']:
deps[pkg] = []
else:
deps[pkg] = pkg_deps
return deps
# Recursive function that builds the tree of dependencies for a given
# list of packages. The dependencies are built in a list called
# 'dependencies', which contains tuples of the form (pkg1 ->
# pkg2_on_which_pkg1_depends, pkg3 -> pkg4_on_which_pkg3_depends) and
# the function finally returns this list.
def get_all_depends(pkgs):
dependencies = []
# Filter the packages for which we already have the dependencies
filtered_pkgs = []
for pkg in pkgs:
if pkg in allpkgs:
continue
filtered_pkgs.append(pkg)
allpkgs.append(pkg)
if len(filtered_pkgs) == 0:
return []
depends = get_depends(filtered_pkgs)
deps = set()
for pkg in filtered_pkgs:
pkg_deps = depends[pkg]
# This package has no dependency.
if pkg_deps == []:
continue
# Add dependencies to the list of dependencies
for dep in pkg_deps:
dependencies.append((pkg, dep))
deps.add(dep)
if len(deps) != 0:
newdeps = get_all_depends(deps)
if newdeps is not None:
dependencies += newdeps
return dependencies
# The Graphviz "dot" utility doesn't like dashes in node names. So for
# node names, we strip all dashes.
def pkg_node_name(pkg):
return pkg.replace("-","")
TARGET_EXCEPTIONS = [
"target-finalize",
"target-post-image",
]
# In full mode, start with the result of get_targets() to get the main
# targets and then use get_all_depends() for all targets
if mode == MODE_FULL:
targets = get_targets()
dependencies = []
allpkgs.append('all')
filtered_targets = []
for tg in targets:
# Skip uninteresting targets
if tg in TARGET_EXCEPTIONS:
continue
dependencies.append(('all', tg))
filtered_targets.append(tg)
deps = get_all_depends(filtered_targets)
if deps is not None:
dependencies += deps
rootpkg = 'all'
# In pkg mode, start directly with get_all_depends() on the requested
# package
elif mode == MODE_PKG:
dependencies = get_all_depends([rootpkg])
# Make the dependencies a dictionnary { 'pkg':[dep1, dep2, ...] }
dict_deps = {}
for dep in dependencies:
if dep[0] not in dict_deps:
dict_deps[dep[0]] = []
dict_deps[dep[0]].append(dep[1])
# Basic cache for the results of the is_dep() function, in order to
# optimize the execution time. The cache is a dict of dict of boolean
# values. The key to the primary dict is "pkg", and the key of the
# sub-dicts is "pkg2".
is_dep_cache = {}
def is_dep_cache_insert(pkg, pkg2, val):
try:
is_dep_cache[pkg].update({pkg2: val})
except KeyError:
is_dep_cache[pkg] = {pkg2: val}
# Retrieves from the cache whether pkg2 is a transitive dependency
# of pkg.
# Note: raises a KeyError exception if the dependency is not known.
def is_dep_cache_lookup(pkg, pkg2):
return is_dep_cache[pkg][pkg2]
# This function return True if pkg is a dependency (direct or
# transitive) of pkg2, dependencies being listed in the deps
# dictionary. Returns False otherwise.
# This is the un-cached version.
def is_dep_uncached(pkg,pkg2,deps):
try:
for p in deps[pkg2]:
if pkg == p:
return True
if is_dep(pkg,p,deps):
return True
except KeyError:
pass
return False
# See is_dep_uncached() above; this is the cached version.
def is_dep(pkg,pkg2,deps):
try:
return is_dep_cache_lookup(pkg, pkg2)
except KeyError:
val = is_dep_uncached(pkg, pkg2, deps)
is_dep_cache_insert(pkg, pkg2, val)
return val
# This function eliminates transitive dependencies; for example, given
# these dependency chain: A->{B,C} and B->{C}, the A->{C} dependency is
# already covered by B->{C}, so C is a transitive dependency of A, via B.
# The functions does:
# - for each dependency d[i] of the package pkg
# - if d[i] is a dependency of any of the other dependencies d[j]
# - do not keep d[i]
# - otherwise keep d[i]
def remove_transitive_deps(pkg,deps):
d = deps[pkg]
new_d = []
for i in range(len(d)):
keep_me = True
for j in range(len(d)):
if j==i:
continue
if is_dep(d[i],d[j],deps):
keep_me = False
if keep_me:
new_d.append(d[i])
return new_d
# This function removes the dependency on some 'mandatory' package, like the
# 'toolchain' package, or the 'skeleton' package
def remove_mandatory_deps(pkg,deps):
return [p for p in deps[pkg] if p not in ['toolchain', 'skeleton']]
# This function will check that there is no loop in the dependency chain
# As a side effect, it builds up the dependency cache.
def check_circular_deps(deps):
def recurse(pkg):
if not pkg in list(deps.keys()):
return
if pkg in not_loop:
return
not_loop.append(pkg)
chain.append(pkg)
for p in deps[pkg]:
if p in chain:
sys.stderr.write("\nRecursion detected for : %s\n" % (p))
while True:
_p = chain.pop()
sys.stderr.write("which is a dependency of: %s\n" % (_p))
if p == _p:
sys.exit(1)
recurse(p)
chain.pop()
not_loop = []
chain = []
for pkg in list(deps.keys()):
recurse(pkg)
# This functions trims down the dependency list of all packages.
# It applies in sequence all the dependency-elimination methods.
def remove_extra_deps(deps):
for pkg in list(deps.keys()):
if not pkg == 'all':
deps[pkg] = remove_mandatory_deps(pkg,deps)
for pkg in list(deps.keys()):
if not transitive or pkg == 'all':
deps[pkg] = remove_transitive_deps(pkg,deps)
return deps
check_circular_deps(dict_deps)
if check_only:
sys.exit(0)
dict_deps = remove_extra_deps(dict_deps)
dict_version = get_version([pkg for pkg in allpkgs
if pkg != "all" and not pkg.startswith("root")])
# Print the attributes of a node: label and fill-color
def print_attrs(pkg):
name = pkg_node_name(pkg)
if pkg == 'all':
label = 'ALL'
else:
label = pkg
if pkg == 'all' or (mode == MODE_PKG and pkg == rootpkg):
color = root_colour
else:
if pkg.startswith('host') \
or pkg.startswith('toolchain') \
or pkg.startswith('rootfs'):
color = host_colour
else:
color = target_colour
version = dict_version.get(pkg)
if version == "virtual":
outfile.write("%s [label = <<I>%s</I>>]\n" % (name, label))
else:
outfile.write("%s [label = \"%s\"]\n" % (name, label))
outfile.write("%s [color=%s,style=filled]\n" % (name, color))
# Print the dependency graph of a package
def print_pkg_deps(depth, pkg):
if pkg in done_deps:
return
done_deps.append(pkg)
print_attrs(pkg)
if pkg not in dict_deps:
return
for p in stop_list:
if fnmatch(pkg, p):
return
if dict_version.get(pkg) == "virtual" and "virtual" in stop_list:
return
if pkg.startswith("host-") and "host" in stop_list:
return
if max_depth == 0 or depth < max_depth:
for d in dict_deps[pkg]:
if dict_version.get(d) == "virtual" \
and "virtual" in exclude_list:
continue
if d.startswith("host-") \
and "host" in exclude_list:
continue
add = True
for p in exclude_list:
if fnmatch(d,p):
add = False
break
if add:
outfile.write("%s -> %s\n" % (pkg_node_name(pkg), pkg_node_name(d)))
print_pkg_deps(depth+1, d)
# Start printing the graph data
outfile.write("digraph G {\n")
done_deps = []
print_pkg_deps(0, rootpkg)
outfile.write("}\n")
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