#!/usr/bin/env python3 # OpenEmbedded pkgdata utility # # Written by: Paul Eggleton # # Copyright 2012-2015 Intel Corporation # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 as # published by the Free Software Foundation. # # 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., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # import sys import os import os.path import fnmatch import re import argparse import logging from collections import defaultdict, OrderedDict scripts_path = os.path.dirname(os.path.realpath(__file__)) lib_path = scripts_path + '/lib' sys.path = sys.path + [lib_path] import scriptutils import argparse_oe logger = scriptutils.logger_create('pkgdatautil') def tinfoil_init(): import bb.tinfoil import logging tinfoil = bb.tinfoil.Tinfoil() tinfoil.logger.setLevel(logging.WARNING) tinfoil.prepare(True) return tinfoil def glob(args): # Handle both multiple arguments and multiple values within an arg (old syntax) globs = [] for globitem in args.glob: globs.extend(globitem.split()) if not os.path.exists(args.pkglistfile): logger.error('Unable to find package list file %s' % args.pkglistfile) sys.exit(1) skipval = "-locale-|^locale-base-|-dev$|-doc$|-dbg$|-staticdev$|^kernel-module-" if args.exclude: skipval += "|" + args.exclude skipregex = re.compile(skipval) skippedpkgs = set() mappedpkgs = set() with open(args.pkglistfile, 'r') as f: for line in f: fields = line.rstrip().split() if not fields: continue pkg = fields[0] # We don't care about other args (used to need the package architecture but the # new pkgdata structure avoids the need for that) # Skip packages for which there is no point applying globs if skipregex.search(pkg): logger.debug("%s -> !!" % pkg) skippedpkgs.add(pkg) continue # Skip packages that already match the globs, so if e.g. a dev package # is already installed and thus in the list, we don't process it any further # Most of these will be caught by skipregex already, but just in case... already = False for g in globs: if fnmatch.fnmatchcase(pkg, g): already = True break if already: skippedpkgs.add(pkg) logger.debug("%s -> !" % pkg) continue # Define some functions def revpkgdata(pkgn): return os.path.join(args.pkgdata_dir, "runtime-reverse", pkgn) def fwdpkgdata(pkgn): return os.path.join(args.pkgdata_dir, "runtime", pkgn) def readpn(pkgdata_file): pn = "" with open(pkgdata_file, 'r') as f: for line in f: if line.startswith("PN:"): pn = line.split(': ')[1].rstrip() return pn def readrenamed(pkgdata_file): renamed = "" pn = os.path.basename(pkgdata_file) with open(pkgdata_file, 'r') as f: for line in f: if line.startswith("PKG_%s:" % pn): renamed = line.split(': ')[1].rstrip() return renamed # Main processing loop for g in globs: mappedpkg = "" # First just try substitution (i.e. packagename -> packagename-dev) newpkg = g.replace("*", pkg) revlink = revpkgdata(newpkg) if os.path.exists(revlink): mappedpkg = os.path.basename(os.readlink(revlink)) fwdfile = fwdpkgdata(mappedpkg) if os.path.exists(fwdfile): mappedpkg = readrenamed(fwdfile) if not os.path.exists(fwdfile + ".packaged"): mappedpkg = "" else: revlink = revpkgdata(pkg) if os.path.exists(revlink): # Check if we can map after undoing the package renaming (by resolving the symlink) origpkg = os.path.basename(os.readlink(revlink)) newpkg = g.replace("*", origpkg) fwdfile = fwdpkgdata(newpkg) if os.path.exists(fwdfile): mappedpkg = readrenamed(fwdfile) else: # That didn't work, so now get the PN, substitute that, then map in the other direction pn = readpn(revlink) newpkg = g.replace("*", pn) fwdfile = fwdpkgdata(newpkg) if os.path.exists(fwdfile): mappedpkg = readrenamed(fwdfile) if not os.path.exists(fwdfile + ".packaged"): mappedpkg = "" else: # Package doesn't even exist... logger.debug("%s is not a valid package!" % (pkg)) break if mappedpkg: logger.debug("%s (%s) -> %s" % (pkg, g, mappedpkg)) mappedpkgs.add(mappedpkg) else: logger.debug("%s (%s) -> ?" % (pkg, g)) logger.debug("------") print("\n".join(mappedpkgs - skippedpkgs)) def read_value(args): # Handle both multiple arguments and multiple values within an arg (old syntax) packages = [] if args.file: with open(args.file, 'r') as f: for line in f: splitline = line.split() if splitline: packages.append(splitline[0]) else: for pkgitem in args.pkg: packages.extend(pkgitem.split()) if not packages: logger.error("No packages specified") sys.exit(1) def readvar(pkgdata_file, valuename, mappedpkg): val = "" with open(pkgdata_file, 'r') as f: for line in f: if (line.startswith(valuename + ":") or line.startswith(valuename + "_" + mappedpkg + ":")): val = line.split(': ', 1)[1].rstrip() return val logger.debug("read-value('%s', '%s' '%s')" % (args.pkgdata_dir, args.valuename, packages)) for package in packages: pkg_split = package.split('_') pkg_name = pkg_split[0] logger.debug("package: '%s'" % pkg_name) revlink = os.path.join(args.pkgdata_dir, "runtime-reverse", pkg_name) logger.debug(revlink) if os.path.exists(revlink): mappedpkg = os.path.basename(os.readlink(revlink)) qvar = args.valuename value = readvar(revlink, qvar, mappedpkg) if qvar == "PKGSIZE": # PKGSIZE is now in bytes, but we we want it in KB pkgsize = (int(value) + 1024 // 2) // 1024 value = "%d" % pkgsize if args.unescape: import codecs # escape_decode() unescapes backslash encodings in byte streams value = codecs.escape_decode(bytes(value, "utf-8"))[0].decode("utf-8") if args.prefix_name: print('%s %s' % (pkg_name, value)) else: print(value) else: logger.debug("revlink %s does not exist", revlink) def lookup_pkglist(pkgs, pkgdata_dir, reverse): if reverse: mappings = OrderedDict() for pkg in pkgs: revlink = os.path.join(pkgdata_dir, "runtime-reverse", pkg) logger.debug(revlink) if os.path.exists(revlink): mappings[pkg] = os.path.basename(os.readlink(revlink)) else: mappings = defaultdict(list) for pkg in pkgs: pkgfile = os.path.join(pkgdata_dir, 'runtime', pkg) if os.path.exists(pkgfile): with open(pkgfile, 'r') as f: for line in f: fields = line.rstrip().split(': ') if fields[0] == 'PKG_%s' % pkg: mappings[pkg].append(fields[1]) break return mappings def lookup_pkg(args): # Handle both multiple arguments and multiple values within an arg (old syntax) pkgs = [] for pkgitem in args.pkg: pkgs.extend(pkgitem.split()) mappings = lookup_pkglist(pkgs, args.pkgdata_dir, args.reverse) if len(mappings) < len(pkgs): missing = list(set(pkgs) - set(mappings.keys())) logger.error("The following packages could not be found: %s" % ', '.join(missing)) sys.exit(1) if args.reverse: items = list(mappings.values()) else: items = [] for pkg in pkgs: items.extend(mappings.get(pkg, [])) print('\n'.join(items)) def lookup_recipe(args): def parse_pkgdatafile(pkgdatafile): with open(pkgdatafile, 'r') as f: found = False for line in f: if line.startswith('PN:'): print("%s" % line.split(':', 1)[1].strip()) found = True break if not found: logger.error("Unable to find PN entry in %s" % pkgdatafile) sys.exit(1) # Handle both multiple arguments and multiple values within an arg (old syntax) pkgs = [] for pkgitem in args.pkg: pkgs.extend(pkgitem.split()) for pkg in pkgs: providepkgpath = os.path.join(args.pkgdata_dir, "runtime-rprovides", pkg) if os.path.exists(providepkgpath): for f in os.listdir(providepkgpath): if f != pkg: print("%s is in the RPROVIDES of %s:" % (pkg, f)) pkgdatafile = os.path.join(args.pkgdata_dir, "runtime", f) parse_pkgdatafile(pkgdatafile) continue pkgdatafile = os.path.join(args.pkgdata_dir, 'runtime-reverse', pkg) if os.path.exists(pkgdatafile): parse_pkgdatafile(pkgdatafile) else: if args.carryon: print("The following packages could not be found: %s" % pkg) else: logger.error("The following packages could not be found: %s" % pkg) sys.exit(1) def package_info(args): def parse_pkgdatafile(pkgdatafile): vars = ['PKGV', 'PKGE', 'PKGR', 'PN', 'PV', 'PE', 'PR', 'PKGSIZE'] if args.extra: vars += args.extra with open(pkgdatafile, 'r') as f: vals = dict() extra = '' for line in f: for var in vars: m = re.match(var + '(?:_\S+)?:\s*(.+?)\s*$', line) if m: vals[var] = m.group(1) pkg_version = vals['PKGV'] or '' recipe = vals['PN'] or '' recipe_version = vals['PV'] or '' pkg_size = vals['PKGSIZE'] or '' if 'PKGE' in vals: pkg_version = vals['PKGE'] + ":" + pkg_version if 'PKGR' in vals: pkg_version = pkg_version + "-" + vals['PKGR'] if 'PE' in vals: recipe_version = vals['PE'] + ":" + recipe_version if 'PR' in vals: recipe_version = recipe_version + "-" + vals['PR'] if args.extra: for var in args.extra: if var in vals: val = re.sub(r'\s+', ' ', vals[var]) extra += ' "%s"' % val print("%s %s %s %s %s%s" % (pkg, pkg_version, recipe, recipe_version, pkg_size, extra)) # Handle both multiple arguments and multiple values within an arg (old syntax) packages = [] if args.file: with open(args.file, 'r') as f: for line in f: splitline = line.split() if splitline: packages.append(splitline[0]) else: for pkgitem in args.pkg: packages.extend(pkgitem.split()) if not packages: logger.error("No packages specified") sys.exit(1) for pkg in packages: providepkgpath = os.path.join(args.pkgdata_dir, "runtime-rprovides", pkg) if os.path.exists(providepkgpath): for f in os.listdir(providepkgpath): if f != pkg: print("%s is in the RPROVIDES of %s:" % (pkg, f)) pkgdatafile = os.path.join(args.pkgdata_dir, "runtime", f) parse_pkgdatafile(pkgdatafile) continue pkgdatafile = os.path.join(args.pkgdata_dir, "runtime-reverse", pkg) if not os.path.exists(pkgdatafile): logger.error("Unable to find any built runtime package named %s" % pkg) sys.exit(1) parse_pkgdatafile(pkgdatafile) def get_recipe_pkgs(pkgdata_dir, recipe, unpackaged): recipedatafile = os.path.join(pkgdata_dir, recipe) if not os.path.exists(recipedatafile): logger.error("Unable to find packaged recipe with name %s" % recipe) sys.exit(1) packages = [] with open(recipedatafile, 'r') as f: for line in f: fields = line.rstrip().split(': ') if fields[0] == 'PACKAGES': packages = fields[1].split() break if not unpackaged: pkglist = [] for pkg in packages: if os.path.exists(os.path.join(pkgdata_dir, 'runtime', '%s.packaged' % pkg)): pkglist.append(pkg) return pkglist else: return packages def list_pkgs(args): found = False def matchpkg(pkg): if args.pkgspec: matched = False for pkgspec in args.pkgspec: if fnmatch.fnmatchcase(pkg, pkgspec): matched = True break if not matched: return False if not args.unpackaged: if args.runtime: revlink = os.path.join(args.pkgdata_dir, "runtime-reverse", pkg) if os.path.exists(revlink): # We're unlikely to get here if the package was not packaged, but just in case # we add the symlinks for unpackaged files in the future mappedpkg = os.path.basename(os.readlink(revlink)) if not os.path.exists(os.path.join(args.pkgdata_dir, 'runtime', '%s.packaged' % mappedpkg)): return False else: return False else: if not os.path.exists(os.path.join(args.pkgdata_dir, 'runtime', '%s.packaged' % pkg)): return False return True if args.recipe: packages = get_recipe_pkgs(args.pkgdata_dir, args.recipe, args.unpackaged) if args.runtime: pkglist = [] runtime_pkgs = lookup_pkglist(packages, args.pkgdata_dir, False) for rtpkgs in runtime_pkgs.values(): pkglist.extend(rtpkgs) else: pkglist = packages for pkg in pkglist: if matchpkg(pkg): found = True print("%s" % pkg) else: if args.runtime: searchdir = 'runtime-reverse' else: searchdir = 'runtime' for root, dirs, files in os.walk(os.path.join(args.pkgdata_dir, searchdir)): for fn in files: if fn.endswith('.packaged'): continue if matchpkg(fn): found = True print("%s" % fn) if not found: if args.pkgspec: logger.error("Unable to find any package matching %s" % args.pkgspec) else: logger.error("No packages found") sys.exit(1) def list_pkg_files(args): import json def parse_pkgdatafile(pkgdatafile, long=False): with open(pkgdatafile, 'r') as f: found = False for line in f: if line.startswith('FILES_INFO:'): found = True val = line.split(':', 1)[1].strip() dictval = json.loads(val) if long: width = max(map(len, dictval), default=0) for fullpth in sorted(dictval): print("\t{:{width}}\t{}".format(fullpth, dictval[fullpth], width=width)) else: for fullpth in sorted(dictval): print("\t%s" % fullpth) break if not found: logger.error("Unable to find FILES_INFO entry in %s" % pkgdatafile) sys.exit(1) if args.recipe: if args.pkg: logger.error("list-pkg-files: If -p/--recipe is specified then a package name cannot be specified") sys.exit(1) recipepkglist = get_recipe_pkgs(args.pkgdata_dir, args.recipe, args.unpackaged) if args.runtime: pkglist = [] runtime_pkgs = lookup_pkglist(recipepkglist, args.pkgdata_dir, False) for rtpkgs in runtime_pkgs.values(): pkglist.extend(rtpkgs) else: pkglist = recipepkglist else: if not args.pkg: logger.error("list-pkg-files: If -p/--recipe is not specified then at least one package name must be specified") sys.exit(1) pkglist = args.pkg for pkg in sorted(pkglist): print("%s:" % pkg) if args.runtime: pkgdatafile = os.path.join(args.pkgdata_dir, "runtime-reverse", pkg) if not os.path.exists(pkgdatafile): if args.recipe: # This package was empty and thus never packaged, ignore continue logger.error("Unable to find any built runtime package named %s" % pkg) sys.exit(1) parse_pkgdatafile(pkgdatafile, args.long) else: providepkgpath = os.path.join(args.pkgdata_dir, "runtime-rprovides", pkg) if os.path.exists(providepkgpath): for f in os.listdir(providepkgpath): if f != pkg: print("%s is in the RPROVIDES of %s:" % (pkg, f)) pkgdatafile = os.path.join(args.pkgdata_dir, "runtime", f) parse_pkgdatafile(pkgdatafile, args.long) continue pkgdatafile = os.path.join(args.pkgdata_dir, "runtime", pkg) if not os.path.exists(pkgdatafile): logger.error("Unable to find any built recipe-space package named %s" % pkg) sys.exit(1) parse_pkgdatafile(pkgdatafile, args.long) def find_path(args): import json found = False for root, dirs, files in os.walk(os.path.join(args.pkgdata_dir, 'runtime')): for fn in files: with open(os.path.join(root,fn)) as f: for line in f: if line.startswith('FILES_INFO:'): val = line.split(':', 1)[1].strip() dictval = json.loads(val) for fullpth in dictval.keys(): if fnmatch.fnmatchcase(fullpth, args.targetpath): found = True print("%s: %s" % (fn, fullpth)) break if not found: logger.error("Unable to find any package producing path %s" % args.targetpath) sys.exit(1) def main(): parser = argparse_oe.ArgumentParser(description="OpenEmbedded pkgdata tool - queries the pkgdata files written out during do_package", epilog="Use %(prog)s --help to get help on a specific command") parser.add_argument('-d', '--debug', help='Enable debug output', action='store_true') parser.add_argument('-p', '--pkgdata-dir', help='Path to pkgdata directory (determined automatically if not specified)') subparsers = parser.add_subparsers(title='subcommands', metavar='') subparsers.required = True parser_lookup_pkg = subparsers.add_parser('lookup-pkg', help='Translate between recipe-space package names and runtime package names', description='Looks up the specified recipe-space package name(s) to see what the final runtime package name is (e.g. glibc becomes libc6), or with -r/--reverse looks up the other way.') parser_lookup_pkg.add_argument('pkg', nargs='+', help='Package name to look up') parser_lookup_pkg.add_argument('-r', '--reverse', help='Switch to looking up recipe-space package names from runtime package names', action='store_true') parser_lookup_pkg.set_defaults(func=lookup_pkg) parser_list_pkgs = subparsers.add_parser('list-pkgs', help='List packages', description='Lists packages that have been built') parser_list_pkgs.add_argument('pkgspec', nargs='*', help='Package name to search for (wildcards * ? allowed, use quotes to avoid shell expansion)') parser_list_pkgs.add_argument('-r', '--runtime', help='Show runtime package names instead of recipe-space package names', action='store_true') parser_list_pkgs.add_argument('-p', '--recipe', help='Limit to packages produced by the specified recipe') parser_list_pkgs.add_argument('-u', '--unpackaged', help='Include unpackaged (i.e. empty) packages', action='store_true') parser_list_pkgs.set_defaults(func=list_pkgs) parser_list_pkg_files = subparsers.add_parser('list-pkg-files', help='List files within a package', description='Lists files included in one or more packages') parser_list_pkg_files.add_argument('pkg', nargs='*', help='Package name to report on (if -p/--recipe is not specified)') parser_list_pkg_files.add_argument('-r', '--runtime', help='Specified package(s) are runtime package names instead of recipe-space package names', action='store_true') parser_list_pkg_files.add_argument('-p', '--recipe', help='Report on all packages produced by the specified recipe') parser_list_pkg_files.add_argument('-u', '--unpackaged', help='Include unpackaged (i.e. empty) packages (only useful with -p/--recipe)', action='store_true') parser_list_pkg_files.add_argument('-l', '--long', help='Show more information per file', action='store_true') parser_list_pkg_files.set_defaults(func=list_pkg_files) parser_lookup_recipe = subparsers.add_parser('lookup-recipe', help='Find recipe producing one or more packages', description='Looks up the specified runtime package(s) to see which recipe they were produced by') parser_lookup_recipe.add_argument('pkg', nargs='+', help='Runtime package name to look up') parser_lookup_recipe.add_argument('-c', '--continue', dest="carryon", help='Continue looking up recipes even if we can not find one', action='store_true') parser_lookup_recipe.set_defaults(func=lookup_recipe) parser_package_info = subparsers.add_parser('package-info', help='Show version, recipe and size information for one or more packages', description='Looks up the specified runtime package(s) and display information') parser_package_info.add_argument('pkg', nargs='*', help='Runtime package name to look up') parser_package_info.add_argument('-f', '--file', help='Read package names from the specified file (one per line, first field only)') parser_package_info.add_argument('-e', '--extra', help='Extra variables to display, e.g., LICENSE (can be specified multiple times)', action='append') parser_package_info.set_defaults(func=package_info) parser_find_path = subparsers.add_parser('find-path', help='Find package providing a target path', description='Finds the recipe-space package providing the specified target path') parser_find_path.add_argument('targetpath', help='Path to find (wildcards * ? allowed, use quotes to avoid shell expansion)') parser_find_path.set_defaults(func=find_path) parser_read_value = subparsers.add_parser('read-value', help='Read any pkgdata value for one or more packages', description='Reads the named value from the pkgdata files for the specified packages') parser_read_value.add_argument('valuename', help='Name of the value to look up') parser_read_value.add_argument('pkg', nargs='*', help='Runtime package name to look up') parser_read_value.add_argument('-f', '--file', help='Read package names from the specified file (one per line, first field only)') parser_read_value.add_argument('-n', '--prefix-name', help='Prefix output with package name', action='store_true') parser_read_value.add_argument('-u', '--unescape', help='Expand escapes such as \\n', action='store_true') parser_read_value.set_defaults(func=read_value) parser_glob = subparsers.add_parser('glob', help='Expand package name glob expression', description='Expands one or more glob expressions over the packages listed in pkglistfile') parser_glob.add_argument('pkglistfile', help='File listing packages (one package name per line)') parser_glob.add_argument('glob', nargs="+", help='Glob expression for package names, e.g. *-dev') parser_glob.add_argument('-x', '--exclude', help='Exclude packages matching specified regex from the glob operation') parser_glob.set_defaults(func=glob) args = parser.parse_args() if args.debug: logger.setLevel(logging.DEBUG) if not args.pkgdata_dir: import scriptpath bitbakepath = scriptpath.add_bitbake_lib_path() if not bitbakepath: logger.error("Unable to find bitbake by searching parent directory of this script or PATH") sys.exit(1) logger.debug('Found bitbake path: %s' % bitbakepath) tinfoil = tinfoil_init() try: args.pkgdata_dir = tinfoil.config_data.getVar('PKGDATA_DIR') finally: tinfoil.shutdown() logger.debug('Value of PKGDATA_DIR is "%s"' % args.pkgdata_dir) if not args.pkgdata_dir: logger.error('Unable to determine pkgdata directory from PKGDATA_DIR') sys.exit(1) if not os.path.exists(args.pkgdata_dir): logger.error('Unable to find pkgdata directory %s' % args.pkgdata_dir) sys.exit(1) ret = args.func(args) return ret if __name__ == "__main__": main()