kumquat-buildroot/support/scripts/graph-depends
Thomas Petazzoni 8a58e0238e Makefile: rename TARGETS to PACKAGES
For clarity, this commit renames the TARGETS variable to the more
meaningful PACKAGES variable. Indeed, only packages (handled by one of
the package infrastructures) should be listed in this variable, and
not other random non-package targets.

Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
Reviewed-by: "Yann E. MORIN" <yann.morin.1998@free.fr>
2015-04-14 10:16:51 +02:00

351 lines
12 KiB
Python
Executable File

#!/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("--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, or" \
+ " 'virtual' to stop on virtual 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()
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])
# This function return True if pkg is a dependency (direct or
# transitive) of pkg2, dependencies being listed in the deps
# dictionary. Returns False otherwise.
def is_dep(pkg,pkg2,deps):
if pkg2 in deps:
for p in deps[pkg2]:
if pkg == p:
return True
if is_dep(pkg,p,deps):
return True
return False
# 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 the 'toolchain' package
def remove_toolchain_deps(pkg,deps):
return [p for p in deps[pkg] if not p == 'toolchain']
# 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_toolchain_deps(pkg,deps)
for pkg in list(deps.keys()):
if not transitive or pkg == 'all':
deps[pkg] = remove_transitive_deps(pkg,deps)
return deps
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":
print("%s [label = <<I>%s</I>>]" % (name, label))
else:
print("%s [label = \"%s\"]" % (name, label))
print("%s [color=%s,style=filled]" % (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 max_depth == 0 or depth < max_depth:
for d in dict_deps[pkg]:
add = True
for p in exclude_list:
if fnmatch(d,p):
add = False
break
if dict_version.get(d) == "virtual" \
and "virtual" in exclude_list:
add = False
break
if add:
print("%s -> %s" % (pkg_node_name(pkg), pkg_node_name(d)))
print_pkg_deps(depth+1, d)
# Start printing the graph data
print("digraph G {")
done_deps = []
print_pkg_deps(0, rootpkg)
print("}")