libc/tools/checksyscalls.py - platform/bionic - Git at Google

 #!/usr/bin/python
 #
 # this tool is used to check that the syscall numbers that are in
 # SYSCALLS.TXT correspond to those found in the Linux kernel sources
 # for the arm, i386 and mips architectures
 #

 import sys, re, string, os, commands
 from   bionic_utils import *

 # change this if necessary
 syscalls_txt = "SYSCALLS.TXT"

 def usage():
     print "usage: checksyscalls [options] [kernel_headers_rootdir]"
     print "    options:    -v   enable verbose mode"
     sys.exit(1)


 linux_root    = None
 syscalls_file = None

 def parse_command_line(args):
     global linux_root, syscalls_file, verbose

     program = args[0]
     args    = args[1:]
     while len(args) > 0 and args[0][0] == "-":
         option = args[0][1:]
         args   = args[1:]

         if option == "v":
             D_setlevel(1)
         else:
             usage()

     if len(args) > 2:
         usage()

     if len(args) == 0:
         linux_root = find_kernel_headers()
         if linux_root == None:
             print "Could not locate original or system kernel headers root directory."
             print "Please specify one when calling this program, i.e. 'checksyscalls <headers-directory>'"
             sys.exit(1)
         print "using the following kernel headers root: '%s'" % linux_root
     else:
         linux_root = args[0]
         if not os.path.isdir(linux_root):
             print "the directory '%s' does not exist. aborting\n" % headers_root
             sys.exit(1)

 parse_command_line(sys.argv)

 syscalls_file = find_file_from_upwards(None, syscalls_txt)
 if not syscalls_file:
     print "could not locate the %s file. Aborting" % syscalls_txt
     sys.exit(1)

 print "parsing %s" % syscalls_file

 # read the syscalls description file
 #

 parser = SysCallsTxtParser()
 parser.parse_file(syscalls_file)
 syscalls = parser.syscalls

 re_nr_line       = re.compile( r"#define __NR_(\w*)\s*\(__NR_SYSCALL_BASE\+\s*(\w*)\)" )
 re_nr_clock_line = re.compile( r"#define __NR_(\w*)\s*\(__NR_timer_create\+(\w*)\)" )
 re_arm_nr_line   = re.compile( r"#define __ARM_NR_(\w*)\s*\(__ARM_NR_BASE\+\s*(\w*)\)" )
 re_x86_line      = re.compile( r"#define __NR_(\w*)\s*([0-9]*)" )
 re_mips_line     = re.compile( r"#define __NR_(\w*)\s*\(__NR_Linux\s*\+\s*([0-9]*)\)" )

 # now read the Linux arm header
 def process_nr_line(line,dict):

     m = re_mips_line.match(line)
     if m:
         if dict["Linux"]==4000:
             dict[m.group(1)] = int(m.group(2))
         return

     m = re_nr_line.match(line)
     if m:
         dict[m.group(1)] = int(m.group(2))
         return

     m = re_nr_clock_line.match(line)
     if m:
         dict[m.group(1)] = int(m.group(2)) + 259
         return

     m = re_arm_nr_line.match(line)
     if m:
         offset_str = m.group(2)
         #print "%s = %s" % (m.group(1), offset_str)
         base = 10
         if offset_str.lower().startswith("0x"):
           # Processing something similar to
           #   #define __ARM_NR_cmpxchg  (__ARM_NR_BASE+0x00fff0)
           base = 16
         dict["ARM_"+m.group(1)] = int(offset_str, base) + 0x0f0000
         return

     m = re_x86_line.match(line)
     if m:
         # try block because the ARM header has some #define _NR_XXXXX  /* nothing */
         try:
             #print "%s = %s" % (m.group(1), m.group(2))
             dict[m.group(1)] = int(m.group(2))
         except:
             pass
         return


 def process_header(header_file,dict):
     fp = open(header_file)
     D("reading "+header_file)
     for line in fp.xreadlines():
         line = line.strip()
         if not line: continue
         process_nr_line(line,dict)
     fp.close()

 arm_dict = {}
 x86_dict = {}
 mips_dict = {}

 # remove trailing slash from the linux_root, if any
 if linux_root[-1] == '/':
     linux_root = linux_root[:-1]

 arm_unistd = find_arch_header(linux_root, "arm", "unistd.h")
 if not arm_unistd:
     print "WEIRD: Could not locate the ARM unistd.h kernel header file,"
     print "maybe using a different set of kernel headers might help."
     sys.exit(1)

 # on recent kernels, asm-i386 and asm-x64_64 have been merged into asm-x86
 # with two distinct unistd_32.h and unistd_64.h definition files.
 # take care of this here
 #
 x86_unistd = find_arch_header(linux_root, "i386", "unistd.h")
 if not x86_unistd:
     x86_unistd = find_arch_header(linux_root, "x86", "unistd_32.h")
     if not x86_unistd:
         print "WEIRD: Could not locate the i386/x86 unistd.h header file,"
         print "maybe using a different set of kernel headers might help."
         sys.exit(1)

 mips_unistd = find_arch_header(linux_root, "mips", "unistd.h")
 if not mips_unistd:
     print "WEIRD: Could not locate the Mips unistd.h kernel header file,"
     print "maybe using a different set of kernel headers might help."
     sys.exit(1)

 process_header( arm_unistd, arm_dict )
 process_header( x86_unistd, x86_dict )
 process_header( mips_unistd, mips_dict )

 # now perform the comparison
 errors = 0

 def check_syscalls(archname, idname, arch_dict):
     errors = 0
     for sc in syscalls:
         sc_name = sc["name"]
         sc_id   = sc[idname]
         if sc_id == -1:
             sc_id = sc["common"]
         if sc_id >= 0:
             if not arch_dict.has_key(sc_name):
                 print "error: %s syscall %s not defined, should be %d" % (archname, sc_name, sc_id)
                 errors += 1
             elif arch_dict[sc_name] != sc_id:
                 print "error: %s syscall %s should be %d instead of %d" % (archname, sc_name, arch_dict[sc_name], sc_id)
                 errors += 1
     return errors

 errors += check_syscalls("arm", "armid", arm_dict)
 errors += check_syscalls("x86", "x86id", x86_dict)
 errors += check_syscalls("mips", "mipsid", mips_dict)

 if errors == 0:
     print "congratulations, everything's fine !!"
 else:
     print "correct %d errors !!" % errors
	#!/usr/bin/python
	#
	# this tool is used to check that the syscall numbers that are in
	# SYSCALLS.TXT correspond to those found in the Linux kernel sources
	# for the arm, i386 and mips architectures
	#

	import sys, re, string, os, commands
	from bionic_utils import *

	# change this if necessary
	syscalls_txt = "SYSCALLS.TXT"

	def usage():
	print "usage: checksyscalls [options] [kernel_headers_rootdir]"
	print " options: -v enable verbose mode"
	sys.exit(1)


	linux_root = None
	syscalls_file = None

	def parse_command_line(args):
	global linux_root, syscalls_file, verbose

	program = args[0]
	args = args[1:]
	while len(args) > 0 and args[0][0] == "-":
	option = args[0][1:]
	args = args[1:]

	if option == "v":
	D_setlevel(1)
	else:
	usage()

	if len(args) > 2:
	usage()

	if len(args) == 0:
	linux_root = find_kernel_headers()
	if linux_root == None:
	print "Could not locate original or system kernel headers root directory."
	print "Please specify one when calling this program, i.e. 'checksyscalls <headers-directory>'"
	sys.exit(1)
	print "using the following kernel headers root: '%s'" % linux_root
	else:
	linux_root = args[0]
	if not os.path.isdir(linux_root):
	print "the directory '%s' does not exist. aborting\n" % headers_root
	sys.exit(1)

	parse_command_line(sys.argv)

	syscalls_file = find_file_from_upwards(None, syscalls_txt)
	if not syscalls_file:
	print "could not locate the %s file. Aborting" % syscalls_txt
	sys.exit(1)

	print "parsing %s" % syscalls_file

	# read the syscalls description file
	#

	parser = SysCallsTxtParser()
	parser.parse_file(syscalls_file)
	syscalls = parser.syscalls

	re_nr_line = re.compile( r"#define __NR_(\w)\s\(__NR_SYSCALL_BASE\+\s(\w)\)" )
	re_nr_clock_line = re.compile( r"#define __NR_(\w)\s\(__NR_timer_create\+(\w*)\)" )
	re_arm_nr_line = re.compile( r"#define __ARM_NR_(\w)\s\(__ARM_NR_BASE\+\s(\w)\)" )
	re_x86_line = re.compile( r"#define __NR_(\w)\s([0-9]*)" )
	re_mips_line = re.compile( r"#define __NR_(\w)\s\(__NR_Linux\s\+\s([0-9]*)\)" )

	# now read the Linux arm header
	def process_nr_line(line,dict):

	m = re_mips_line.match(line)
	if m:
	if dict["Linux"]==4000:
	dict[m.group(1)] = int(m.group(2))
	return

	m = re_nr_line.match(line)
	if m:
	dict[m.group(1)] = int(m.group(2))
	return

	m = re_nr_clock_line.match(line)
	if m:
	dict[m.group(1)] = int(m.group(2)) + 259
	return

	m = re_arm_nr_line.match(line)
	if m:
	offset_str = m.group(2)
	#print "%s = %s" % (m.group(1), offset_str)
	base = 10
	if offset_str.lower().startswith("0x"):
	# Processing something similar to
	# #define __ARM_NR_cmpxchg (__ARM_NR_BASE+0x00fff0)
	base = 16
	dict["ARM_"+m.group(1)] = int(offset_str, base) + 0x0f0000
	return

	m = re_x86_line.match(line)
	if m:
	# try block because the ARM header has some #define _NR_XXXXX /* nothing */
	try:
	#print "%s = %s" % (m.group(1), m.group(2))
	dict[m.group(1)] = int(m.group(2))
	except:
	pass
	return


	def process_header(header_file,dict):
	fp = open(header_file)
	D("reading "+header_file)
	for line in fp.xreadlines():
	line = line.strip()
	if not line: continue
	process_nr_line(line,dict)
	fp.close()

	arm_dict = {}
	x86_dict = {}
	mips_dict = {}

	# remove trailing slash from the linux_root, if any
	if linux_root[-1] == '/':
	linux_root = linux_root[:-1]

	arm_unistd = find_arch_header(linux_root, "arm", "unistd.h")
	if not arm_unistd:
	print "WEIRD: Could not locate the ARM unistd.h kernel header file,"
	print "maybe using a different set of kernel headers might help."
	sys.exit(1)

	# on recent kernels, asm-i386 and asm-x64_64 have been merged into asm-x86
	# with two distinct unistd_32.h and unistd_64.h definition files.
	# take care of this here
	#
	x86_unistd = find_arch_header(linux_root, "i386", "unistd.h")
	if not x86_unistd:
	x86_unistd = find_arch_header(linux_root, "x86", "unistd_32.h")
	if not x86_unistd:
	print "WEIRD: Could not locate the i386/x86 unistd.h header file,"
	print "maybe using a different set of kernel headers might help."
	sys.exit(1)

	mips_unistd = find_arch_header(linux_root, "mips", "unistd.h")
	if not mips_unistd:
	print "WEIRD: Could not locate the Mips unistd.h kernel header file,"
	print "maybe using a different set of kernel headers might help."
	sys.exit(1)

	process_header( arm_unistd, arm_dict )
	process_header( x86_unistd, x86_dict )
	process_header( mips_unistd, mips_dict )

	# now perform the comparison
	errors = 0

	def check_syscalls(archname, idname, arch_dict):
	errors = 0
	for sc in syscalls:
	sc_name = sc["name"]
	sc_id = sc[idname]
	if sc_id == -1:
	sc_id = sc["common"]
	if sc_id >= 0:
	if not arch_dict.has_key(sc_name):
	print "error: %s syscall %s not defined, should be %d" % (archname, sc_name, sc_id)
	errors += 1
	elif arch_dict[sc_name] != sc_id:
	print "error: %s syscall %s should be %d instead of %d" % (archname, sc_name, arch_dict[sc_name], sc_id)
	errors += 1
	return errors

	errors += check_syscalls("arm", "armid", arm_dict)
	errors += check_syscalls("x86", "x86id", x86_dict)
	errors += check_syscalls("mips", "mipsid", mips_dict)

	if errors == 0:
	print "congratulations, everything's fine !!"
	else:
	print "correct %d errors !!" % errors