kumquat-buildroot/support/scripts/gen-manual-lists.py
Ulf Magnusson 954c09ae62 support: remove outdated note re. Python 3 support
Kconfiglib now runs as either Python 2 or Python 3.

Signed-off-by: Ulf Magnusson <ulfalizer@gmail.com>
Signed-off-by: Thomas Petazzoni <thomas.petazzoni@free-electrons.com>
2015-06-12 21:19:52 +02:00

511 lines
20 KiB
Python

## gen-manual-lists.py
##
## This script generates the following Buildroot manual appendices:
## - the package tables (one for the target, the other for host tools);
## - the deprecated items.
##
## Author(s):
## - Samuel Martin <s.martin49@gmail.com>
##
## Copyright (C) 2013 Samuel Martin
##
## 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, write to the Free Software
## Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
##
from __future__ import print_function
from __future__ import unicode_literals
import os
import re
import sys
import datetime
from argparse import ArgumentParser
try:
import kconfiglib
except ImportError:
message = """
Could not find the module 'kconfiglib' in the PYTHONPATH:
"""
message += "\n".join([" {0}".format(path) for path in sys.path])
message += """
Make sure the Kconfiglib directory is in the PYTHONPATH, then relaunch the
script.
You can get kconfiglib from:
https://github.com/ulfalizer/Kconfiglib
"""
sys.stderr.write(message)
raise
def get_symbol_subset(root, filter_func):
""" Return a generator of kconfig items.
:param root_item: Root item of the generated subset of items
:param filter_func: Filter function
"""
if hasattr(root, "get_items"):
get_items = root.get_items
elif hasattr(root, "get_top_level_items"):
get_items = root.get_top_level_items
else:
message = "The symbol does not contain any subset of symbols"
raise Exception(message)
for item in get_items():
if item.is_symbol():
if not filter_func(item):
continue
yield item
elif item.is_menu() or item.is_choice():
for i in get_symbol_subset(item, filter_func):
yield i
def get_symbol_parents(item, root=None, enable_choice=False):
""" Return the list of the item's parents. The last item of the list is
the closest parent, the first the furthest.
:param item: Item from which the parent list is generated
:param root: Root item stopping the search (not included in the
parent list)
:param enable_choice: Flag enabling choices to appear in the parent list
"""
parent = item.get_parent()
parents = []
while parent and parent != root:
if parent.is_menu():
parents.append(parent.get_title())
elif enable_choice and parent.is_choice():
parents.append(parent.get_prompts()[0])
parent = parent.get_parent()
if isinstance(root, kconfiglib.Menu) or \
(enable_choice and isinstance(root, kconfiglib.Choice)):
parents.append("") # Dummy empty parent to get a leading arrow ->
parents.reverse()
return parents
def format_asciidoc_table(root, get_label_func, filter_func=lambda x: True,
format_func=lambda x: x,
enable_choice=False, sorted=True,
item_label=None):
""" Return the asciidoc formatted table of the items and their location.
:param root: Root item of the item subset
:param get_label_func: Item's label getter function
:param filter_func: Filter function to apply on the item subset
:param format_func: Function to format a symbol and the table header
:param enable_choice: Enable choices to appear as part of the item's
location
:param sorted: Flag to alphabetically sort the table
"""
lines = []
for item in get_symbol_subset(root, filter_func):
lines.append(format_func(what="symbol", symbol=item, root=root,
get_label_func=get_label_func,
enable_choice=enable_choice))
if sorted:
lines.sort(key=lambda x: x.lower())
table = ":halign: center\n\n"
width, columns = format_func(what="layout")
table = "[width=\"{0}\",cols=\"{1}\",options=\"header\"]\n".format(width, columns)
table += "|===================================================\n"
table += format_func(what="header", header=item_label, root=root)
table += "\n" + "".join(lines) + "\n"
table += "|===================================================\n"
return table
class Buildroot:
""" Buildroot configuration object.
"""
root_config = "Config.in"
package_dirname = "package"
package_prefixes = ["BR2_PACKAGE_", "BR2_PACKAGE_HOST_"]
re_pkg_prefix = re.compile(r"^(" + "|".join(package_prefixes) + ").*")
deprecated_symbol = "BR2_DEPRECATED"
list_in = """\
//
// Automatically generated list for Buildroot manual.
//
{table}
"""
list_info = {
'target-packages': {
'filename': "package-list",
'root_menu': "Target packages",
'filter': "_is_real_package",
'format': "_format_symbol_prompt_location",
'sorted': True,
},
'host-packages': {
'filename': "host-package-list",
'root_menu': "Host utilities",
'filter': "_is_real_package",
'format': "_format_symbol_prompt",
'sorted': True,
},
'virtual-packages': {
'filename': "virtual-package-list",
'root_menu': "Target packages",
'filter': "_is_virtual_package",
'format': "_format_symbol_virtual",
'sorted': True,
},
'deprecated': {
'filename': "deprecated-list",
'root_menu': None,
'filter': "_is_deprecated",
'format': "_format_symbol_prompt_location",
'sorted': False,
},
}
def __init__(self):
self.base_dir = os.environ.get("TOPDIR")
self.output_dir = os.environ.get("O")
self.package_dir = os.path.join(self.base_dir, self.package_dirname)
self.config = kconfiglib.Config(os.path.join(self.base_dir,
self.root_config),
self.base_dir)
self._deprecated = self.config.get_symbol(self.deprecated_symbol)
self.gen_date = datetime.datetime.utcnow()
self.br_version_full = os.environ.get("BR2_VERSION_FULL")
if self.br_version_full and self.br_version_full.endswith("-git"):
self.br_version_full = self.br_version_full[:-4]
if not self.br_version_full:
self.br_version_full = "undefined"
def _get_package_symbols(self, package_name):
""" Return a tuple containing the target and host package symbol.
"""
symbols = re.sub("[-+.]", "_", package_name)
symbols = symbols.upper()
symbols = tuple([prefix + symbols for prefix in self.package_prefixes])
return symbols
def _is_deprecated(self, symbol):
""" Return True if the symbol is marked as deprecated, otherwise False.
"""
# This also catches BR2_DEPRECATED_SINCE_xxxx_xx
return bool([ symbol for x in symbol.get_referenced_symbols()
if x.get_name().startswith(self._deprecated.get_name()) ])
def _is_package(self, symbol, type='real'):
""" Return True if the symbol is a package or a host package, otherwise
False.
:param symbol: The symbol to check
:param type: Limit to 'real' or 'virtual' types of packages,
with 'real' being the default.
Note: only 'real' is (implictly) handled for now
"""
if not symbol.is_symbol():
return False
if type == 'real' and not symbol.get_prompts():
return False
if type == 'virtual' and symbol.get_prompts():
return False
if not self.re_pkg_prefix.match(symbol.get_name()):
return False
pkg_name = self._get_pkg_name(symbol)
pattern = "^(HOST_)?" + pkg_name + "$"
pattern = re.sub("_", ".", pattern)
pattern = re.compile(pattern, re.IGNORECASE)
# Here, we cannot just check for the location of the Config.in because
# of the "virtual" package.
#
# So, to check that a symbol is a package (not a package option or
# anything else), we check for the existence of the package *.mk file.
#
# By the way, to actually check for a package, we should grep all *.mk
# files for the following regex:
# "\$\(eval \$\((host-)?(generic|autotools|cmake)-package\)\)"
#
# Implementation details:
#
# * The package list is generated from the *.mk file existence, the
# first time this function is called. Despite the memory consumption,
# this list is stored because the execution time of this script is
# noticeably shorter than rescanning the package sub-tree for each
# symbol.
if not hasattr(self, "_package_list"):
pkg_list = []
for _, _, files in os.walk(self.package_dir):
for file_ in (f for f in files if f.endswith(".mk")):
pkg_list.append(re.sub(r"(.*?)\.mk", r"\1", file_))
setattr(self, "_package_list", pkg_list)
for pkg in getattr(self, "_package_list"):
if type == 'real':
if pattern.match(pkg) and not self._exists_virt_symbol(pkg):
return True
if type == 'virtual':
if pattern.match('has_' + pkg):
return True
return False
def _is_real_package(self, symbol):
return self._is_package(symbol, 'real')
def _is_virtual_package(self, symbol):
return self._is_package(symbol, 'virtual')
def _exists_virt_symbol(self, pkg_name):
""" Return True if a symbol exists that defines the package as
a virtual package, False otherwise
:param pkg_name: The name of the package, for which to check if
a symbol exists defining it as a virtual package
"""
virt_pattern = "BR2_PACKAGE_HAS_" + pkg_name + "$"
virt_pattern = re.sub("_", ".", virt_pattern)
virt_pattern = re.compile(virt_pattern, re.IGNORECASE)
for sym in self.config:
if virt_pattern.match(sym.get_name()):
return True
return False
def _get_pkg_name(self, symbol):
""" Return the package name of the specified symbol.
:param symbol: The symbol to get the package name of
"""
return re.sub("BR2_PACKAGE_(HOST_)?(.*)", r"\2", symbol.get_name())
def _get_symbol_label(self, symbol, mark_deprecated=True):
""" Return the label (a.k.a. prompt text) of the symbol.
:param symbol: The symbol
:param mark_deprecated: Append a 'deprecated' to the label
"""
label = symbol.get_prompts()[0]
if self._is_deprecated(symbol) and mark_deprecated:
label += " *(deprecated)*"
return label
def _format_symbol_prompt(self, what=None, symbol=None, root=None,
enable_choice=False, header=None,
get_label_func=lambda x: x):
if what == "layout":
return ( "30%", "^1" )
if what == "header":
return "| {0:<40}\n".format(header)
if what == "symbol":
return "| {0:<40}\n".format(get_label_func(symbol))
message = "Invalid argument 'what': '%s'\n" % str(what)
message += "Allowed values are: 'layout', 'header' and 'symbol'"
raise Exception(message)
def _format_symbol_prompt_location(self, what=None, symbol=None, root=None,
enable_choice=False, header=None,
get_label_func=lambda x: x):
if what == "layout":
return ( "100%", "^1,4" )
if what == "header":
if hasattr(root, "get_title"):
loc_label = get_symbol_parents(root, None, enable_choice=enable_choice)
loc_label += [root.get_title(), "..."]
else:
loc_label = ["Location"]
return "| {0:<40} <| {1}\n".format(header, " -> ".join(loc_label))
if what == "symbol":
parents = get_symbol_parents(symbol, root, enable_choice)
return "| {0:<40} <| {1}\n".format(get_label_func(symbol),
" -> ".join(parents))
message = "Invalid argument 'what': '%s'\n" % str(what)
message += "Allowed values are: 'layout', 'header' and 'symbol'"
raise Exception(message)
def _format_symbol_virtual(self, what=None, symbol=None, root=None,
enable_choice=False, header=None,
get_label_func=lambda x: "?"):
def _symbol_is_legacy(symbol):
selects = [ s.get_name() for s in symbol.get_selected_symbols() ]
return ("BR2_LEGACY" in selects)
def _get_parent_package(sym):
if self._is_real_package(sym):
return None
# Trim the symbol name from its last component (separated with
# underscores), until we either find a symbol which is a real
# package, or until we have no component (i.e. just 'BR2')
name = sym.get_name()
while name != "BR2":
name = name.rsplit("_", 1)[0]
s = self.config.get_symbol(name)
if s is None:
continue
if self._is_real_package(s):
return s
return None
def _get_providers(symbol):
providers = list()
for sym in self.config:
if not sym.is_symbol():
continue
if _symbol_is_legacy(sym):
continue
selects = sym.get_selected_symbols()
if not selects:
continue
for s in selects:
if s == symbol:
if sym.get_prompts():
l = self._get_symbol_label(sym,False)
parent_pkg = _get_parent_package(sym)
if parent_pkg is not None:
l = self._get_symbol_label(parent_pkg, False) \
+ " (w/ " + l + ")"
providers.append(l)
else:
providers.extend(_get_providers(sym))
return providers
if what == "layout":
return ( "100%", "^1,4,4" )
if what == "header":
return "| {0:<20} <| {1:<32} <| Providers\n".format("Virtual packages", "Symbols")
if what == "symbol":
pkg = re.sub(r"^BR2_PACKAGE_HAS_(.+)$", r"\1", symbol.get_name())
providers = _get_providers(symbol)
return "| {0:<20} <| {1:<32} <| {2}\n".format(pkg.lower(),
'+' + symbol.get_name() + '+',
", ".join(providers))
message = "Invalid argument 'what': '%s'\n" % str(what)
message += "Allowed values are: 'layout', 'header' and 'symbol'"
raise Exception(message)
def print_list(self, list_type, enable_choice=True, enable_deprecated=True,
dry_run=False, output=None):
""" Print the requested list. If not dry run, then the list is
automatically written in its own file.
:param list_type: The list type to be generated
:param enable_choice: Flag enabling choices to appear in the list
:param enable_deprecated: Flag enabling deprecated items to appear in
the package lists
:param dry_run: Dry run (print the list in stdout instead of
writing the list file
"""
def _get_menu(title):
""" Return the first symbol menu matching the given title.
"""
menus = self.config.get_menus()
menu = [m for m in menus if m.get_title().lower() == title.lower()]
if not menu:
message = "No such menu: '{0}'".format(title)
raise Exception(message)
return menu[0]
list_config = self.list_info[list_type]
root_title = list_config.get('root_menu')
if root_title:
root_item = _get_menu(root_title)
else:
root_item = self.config
filter_ = getattr(self, list_config.get('filter'))
filter_func = lambda x: filter_(x)
format_func = getattr(self, list_config.get('format'))
if not enable_deprecated and list_type != "deprecated":
filter_func = lambda x: filter_(x) and not self._is_deprecated(x)
mark_depr = list_type != "deprecated"
get_label = lambda x: self._get_symbol_label(x, mark_depr)
item_label = "Features" if list_type == "deprecated" else "Packages"
table = format_asciidoc_table(root_item, get_label,
filter_func=filter_func,
format_func=format_func,
enable_choice=enable_choice,
sorted=list_config.get('sorted'),
item_label=item_label)
content = self.list_in.format(table=table)
if dry_run:
print(content)
return
if not output:
output_dir = self.output_dir
if not output_dir:
print("Warning: Undefined output directory.")
print("\tUse source directory as output location.")
output_dir = self.base_dir
output = os.path.join(output_dir,
list_config.get('filename') + ".txt")
if not os.path.exists(os.path.dirname(output)):
os.makedirs(os.path.dirname(output))
print("Writing the {0} list in:\n\t{1}".format(list_type, output))
with open(output, 'w') as fout:
fout.write(content)
if __name__ == '__main__':
list_types = ['target-packages', 'host-packages', 'virtual-packages', 'deprecated']
parser = ArgumentParser()
parser.add_argument("list_type", nargs="?", choices=list_types,
help="""\
Generate the given list (generate all lists if unspecified)""")
parser.add_argument("-n", "--dry-run", dest="dry_run", action='store_true',
help="Output the generated list to stdout")
parser.add_argument("--output-target", dest="output_target",
help="Output target package file")
parser.add_argument("--output-host", dest="output_host",
help="Output host package file")
parser.add_argument("--output-virtual", dest="output_virtual",
help="Output virtual package file")
parser.add_argument("--output-deprecated", dest="output_deprecated",
help="Output deprecated file")
args = parser.parse_args()
lists = [args.list_type] if args.list_type else list_types
buildroot = Buildroot()
for list_name in lists:
output = getattr(args, "output_" + list_name.split("-", 1)[0])
buildroot.print_list(list_name, dry_run=args.dry_run, output=output)