#!/usr/bin/env python # # this program is used to find source code that includes linux kernel headers directly # (e.g. with #include or #include ) # # then it lists import sys, cpp, glob, os, re, getopt, kernel from utils import * from defaults import * program_dir = find_program_dir() wanted_archs = kernel_archs wanted_include = os.path.normpath(program_dir + '/../original') wanted_config = os.path.normpath(program_dir + '/../original/config') def usage(): print """\ usage: find_headers.py [options] (file|directory|@listfile)+ options: -d specify alternate kernel headers 'include' directory ('%s' by default) -c specify alternate .config file ('%s' by default) -a used to specify an alternative list of architectures to support ('%s' by default) -v enable verbose mode this program is used to find all the kernel headers that are used by a set of source files or directories containing them. the search is recursive to find *all* required files. """ % ( wanted_include, wanted_config, string.join(kernel_archs,",") ) sys.exit(1) try: optlist, args = getopt.getopt( sys.argv[1:], 'vc:d:a:' ) except: # unrecognized option print "error: unrecognized option" usage() for opt, arg in optlist: if opt == '-a': wanted_archs = string.split(arg,',') elif opt == '-d': wanted_include = arg elif opt == '-c': wanted_config = arg elif opt == '-v': kernel.verboseSearch = 1 kernel.verboseFind = 1 verbose = 1 else: usage() if len(args) < 1: usage() kernel_root = wanted_include if not os.path.exists(kernel_root): sys.stderr.write( "error: directory '%s' does not exist\n" % kernel_root ) sys.exit(1) if not os.path.isdir(kernel_root): sys.stderr.write( "error: '%s' is not a directory\n" % kernel_root ) sys.exit(1) if not os.path.isdir(kernel_root+"/linux"): sys.stderr.write( "error: '%s' does not have a 'linux' directory\n" % kernel_root ) sys.exit(1) if not os.path.exists(wanted_config): sys.stderr.write( "error: file '%s' does not exist\n" % wanted_config ) sys.exit(1) if not os.path.isfile(wanted_config): sys.stderr.write( "error: '%s' is not a file\n" % wanted_config ) sys.exit(1) # find all architectures in the kernel tree re_asm_ = re.compile(r"asm-(\w+)") archs = [] for dir in os.listdir(kernel_root): m = re_asm_.match(dir) if m: if verbose: print ">> found kernel arch '%s'" % m.group(1) archs.append(m.group(1)) # if we're using the 'kernel_headers' directory, there is only asm/ # and no other asm- directories (arm is assumed, which sucks) # in_kernel_headers = False if len(archs) == 0: # this can happen when we're using the 'kernel_headers' directory if os.path.isdir(kernel_root+"/asm"): in_kernel_headers = True archs = [ "arm" ] # if the user has specified some architectures with -a ensure that # all those he wants are available from the kernel include tree if wanted_archs != None: if in_kernel_headers and wanted_archs != [ "arm" ]: sys.stderr.write( "error: when parsing kernel_headers, 'arm' architecture only is supported at the moment\n" ) sys.exit(1) missing = [] for arch in wanted_archs: if arch not in archs: missing.append(arch) if len(missing) > 0: sys.stderr.write( "error: the following requested architectures are not in the kernel tree: " ) for a in missing: sys.stderr.write( " %s" % a ) sys.stderr.write( "\n" ) sys.exit(1) archs = wanted_archs # helper function used to walk the user files def parse_file(path, parser): parser.parseFile(path) # remove previous destination directory #destdir = "/tmp/bionic-kernel-headers/" #cleanup_dir(destdir) # try to read the config file try: cparser = kernel.ConfigParser() cparser.parseFile( wanted_config ) except: sys.stderr.write( "error: can't parse '%s'" % wanted_config ) sys.exit(1) kernel_config = cparser.getDefinitions() # first, obtain the list of kernel files used by our clients fparser = kernel.HeaderScanner() walk_source_files( args, parse_file, fparser, excludes=["kernel_headers"] ) headers = fparser.getHeaders() files = fparser.getFiles() # now recursively scan the kernel headers for additionnal sub-included headers hparser = kernel.KernelHeaderFinder(headers,archs,kernel_root,kernel_config) headers = hparser.scanForAllArchs() if 0: # just for debugging dumpHeaderUsers = False print "the following %d headers:" % len(headers) for h in sorted(headers): if dumpHeaderUsers: print " %s (%s)" % (h, repr(hparser.getHeaderUsers(h))) else: print " %s" % h print "are used by the following %d files:" % len(files) for f in sorted(files): print " %s" % f sys.exit(0) for h in sorted(headers): print h sys.exit(0)