tests/qemu-iotests/qed.py - qemu-android - Git at Google

 #!/usr/bin/env python
 #
 # Tool to manipulate QED image files
 #
 # Copyright (C) 2010 IBM, Corp.
 #
 # Authors:
 #  Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
 #
 # This work is licensed under the terms of the GNU GPL, version 2 or later.
 # See the COPYING file in the top-level directory.

 import sys
 import struct
 import random
 import optparse

 # This can be used as a module
 __all__ = ['QED_F_NEED_CHECK', 'QED']

 QED_F_NEED_CHECK = 0x02

 header_fmt = '<IIIIQQQQQII'
 header_size = struct.calcsize(header_fmt)
 field_names = ['magic', 'cluster_size', 'table_size',
                'header_size', 'features', 'compat_features',
                'autoclear_features', 'l1_table_offset', 'image_size',
                'backing_filename_offset', 'backing_filename_size']
 table_elem_fmt = '<Q'
 table_elem_size = struct.calcsize(table_elem_fmt)

 def err(msg):
     sys.stderr.write(msg + '\n')
     sys.exit(1)

 def unpack_header(s):
     fields = struct.unpack(header_fmt, s)
     return dict((field_names[idx], val) for idx, val in enumerate(fields))

 def pack_header(header):
     fields = tuple(header[x] for x in field_names)
     return struct.pack(header_fmt, *fields)

 def unpack_table_elem(s):
     return struct.unpack(table_elem_fmt, s)[0]

 def pack_table_elem(elem):
     return struct.pack(table_elem_fmt, elem)

 class QED(object):
     def __init__(self, f):
         self.f = f

         self.f.seek(0, 2)
         self.filesize = f.tell()

         self.load_header()
         self.load_l1_table()

     def raw_pread(self, offset, size):
         self.f.seek(offset)
         return self.f.read(size)

     def raw_pwrite(self, offset, data):
         self.f.seek(offset)
         return self.f.write(data)

     def load_header(self):
         self.header = unpack_header(self.raw_pread(0, header_size))

     def store_header(self):
         self.raw_pwrite(0, pack_header(self.header))

     def read_table(self, offset):
         size = self.header['table_size'] * self.header['cluster_size']
         s = self.raw_pread(offset, size)
         table = [unpack_table_elem(s[i:i + table_elem_size]) for i in xrange(0, size, table_elem_size)]
         return table

     def load_l1_table(self):
         self.l1_table = self.read_table(self.header['l1_table_offset'])
         self.table_nelems = self.header['table_size'] * self.header['cluster_size'] / table_elem_size

     def write_table(self, offset, table):
         s = ''.join(pack_table_elem(x) for x in table)
         self.raw_pwrite(offset, s)

 def random_table_item(table):
     vals = [(index, offset) for index, offset in enumerate(table) if offset != 0]
     if not vals:
         err('cannot pick random item because table is empty')
     return random.choice(vals)

 def corrupt_table_duplicate(table):
     '''Corrupt a table by introducing a duplicate offset'''
     victim_idx, victim_val = random_table_item(table)
     unique_vals = set(table)
     if len(unique_vals) == 1:
         err('no duplication corruption possible in table')
     dup_val = random.choice(list(unique_vals.difference([victim_val])))
     table[victim_idx] = dup_val

 def corrupt_table_invalidate(qed, table):
     '''Corrupt a table by introducing an invalid offset'''
     index, _ = random_table_item(table)
     table[index] = qed.filesize + random.randint(0, 100 * 1024 * 1024 * 1024 * 1024)

 def cmd_show(qed, *args):
     '''show [header|l1|l2 <offset>]- Show header or l1/l2 tables'''
     if not args or args[0] == 'header':
         print qed.header
     elif args[0] == 'l1':
         print qed.l1_table
     elif len(args) == 2 and args[0] == 'l2':
         offset = int(args[1])
         print qed.read_table(offset)
     else:
         err('unrecognized sub-command')

 def cmd_duplicate(qed, table_level):
     '''duplicate l1|l2 - Duplicate a random table element'''
     if table_level == 'l1':
         offset = qed.header['l1_table_offset']
         table = qed.l1_table
     elif table_level == 'l2':
         _, offset = random_table_item(qed.l1_table)
         table = qed.read_table(offset)
     else:
         err('unrecognized sub-command')
     corrupt_table_duplicate(table)
     qed.write_table(offset, table)

 def cmd_invalidate(qed, table_level):
     '''invalidate l1|l2 - Plant an invalid table element at random'''
     if table_level == 'l1':
         offset = qed.header['l1_table_offset']
         table = qed.l1_table
     elif table_level == 'l2':
         _, offset = random_table_item(qed.l1_table)
         table = qed.read_table(offset)
     else:
         err('unrecognized sub-command')
     corrupt_table_invalidate(qed, table)
     qed.write_table(offset, table)

 def cmd_need_check(qed, *args):
     '''need-check [on|off] - Test, set, or clear the QED_F_NEED_CHECK header bit'''
     if not args:
         print bool(qed.header['features'] & QED_F_NEED_CHECK)
         return

     if args[0] == 'on':
         qed.header['features'] |= QED_F_NEED_CHECK
     elif args[0] == 'off':
         qed.header['features'] &= ~QED_F_NEED_CHECK
     else:
         err('unrecognized sub-command')
     qed.store_header()

 def cmd_zero_cluster(qed, pos, *args):
     '''zero-cluster <pos> [<n>] - Zero data clusters'''
     pos, n = int(pos), 1
     if args:
         if len(args) != 1:
             err('expected one argument')
         n = int(args[0])

     for i in xrange(n):
         l1_index = pos / qed.header['cluster_size'] / len(qed.l1_table)
         if qed.l1_table[l1_index] == 0:
             err('no l2 table allocated')

         l2_offset = qed.l1_table[l1_index]
         l2_table = qed.read_table(l2_offset)

         l2_index = (pos / qed.header['cluster_size']) % len(qed.l1_table)
         l2_table[l2_index] = 1 # zero the data cluster
         qed.write_table(l2_offset, l2_table)
         pos += qed.header['cluster_size']

 def cmd_copy_metadata(qed, outfile):
     '''copy-metadata <outfile> - Copy metadata only (for scrubbing corrupted images)'''
     out = open(outfile, 'wb')

     # Match file size
     out.seek(qed.filesize - 1)
     out.write('\0')

     # Copy header clusters
     out.seek(0)
     header_size_bytes = qed.header['header_size'] * qed.header['cluster_size']
     out.write(qed.raw_pread(0, header_size_bytes))

     # Copy L1 table
     out.seek(qed.header['l1_table_offset'])
     s = ''.join(pack_table_elem(x) for x in qed.l1_table)
     out.write(s)

     # Copy L2 tables
     for l2_offset in qed.l1_table:
         if l2_offset == 0:
             continue
         l2_table = qed.read_table(l2_offset)
         out.seek(l2_offset)
         s = ''.join(pack_table_elem(x) for x in l2_table)
         out.write(s)

     out.close()

 def usage():
     print 'Usage: %s <file> <cmd> [<arg>, ...]' % sys.argv[0]
     print
     print 'Supported commands:'
     for cmd in sorted(x for x in globals() if x.startswith('cmd_')):
         print globals()[cmd].__doc__
     sys.exit(1)

 def main():
     if len(sys.argv) < 3:
         usage()
     filename, cmd = sys.argv[1:3]

     cmd = 'cmd_' + cmd.replace('-', '_')
     if cmd not in globals():
         usage()

     qed = QED(open(filename, 'r+b'))
     try:
         globals()[cmd](qed, *sys.argv[3:])
     except TypeError, e:
         sys.stderr.write(globals()[cmd].__doc__ + '\n')
         sys.exit(1)

 if __name__ == '__main__':
     main()
	#!/usr/bin/env python
	#
	# Tool to manipulate QED image files
	#
	# Copyright (C) 2010 IBM, Corp.
	#
	# Authors:
	# Stefan Hajnoczi <stefanha@linux.vnet.ibm.com>
	#
	# This work is licensed under the terms of the GNU GPL, version 2 or later.
	# See the COPYING file in the top-level directory.

	import sys
	import struct
	import random
	import optparse

	# This can be used as a module
	__all__ = ['QED_F_NEED_CHECK', 'QED']

	QED_F_NEED_CHECK = 0x02

	header_fmt = '<IIIIQQQQQII'
	header_size = struct.calcsize(header_fmt)
	field_names = ['magic', 'cluster_size', 'table_size',
	'header_size', 'features', 'compat_features',
	'autoclear_features', 'l1_table_offset', 'image_size',
	'backing_filename_offset', 'backing_filename_size']
	table_elem_fmt = '<Q'
	table_elem_size = struct.calcsize(table_elem_fmt)

	def err(msg):
	sys.stderr.write(msg + '\n')
	sys.exit(1)

	def unpack_header(s):
	fields = struct.unpack(header_fmt, s)
	return dict((field_names[idx], val) for idx, val in enumerate(fields))

	def pack_header(header):
	fields = tuple(header[x] for x in field_names)
	return struct.pack(header_fmt, *fields)

	def unpack_table_elem(s):
	return struct.unpack(table_elem_fmt, s)[0]

	def pack_table_elem(elem):
	return struct.pack(table_elem_fmt, elem)

	class QED(object):
	def __init__(self, f):
	self.f = f

	self.f.seek(0, 2)
	self.filesize = f.tell()

	self.load_header()
	self.load_l1_table()

	def raw_pread(self, offset, size):
	self.f.seek(offset)
	return self.f.read(size)

	def raw_pwrite(self, offset, data):
	self.f.seek(offset)
	return self.f.write(data)

	def load_header(self):
	self.header = unpack_header(self.raw_pread(0, header_size))

	def store_header(self):
	self.raw_pwrite(0, pack_header(self.header))

	def read_table(self, offset):
	size = self.header['table_size'] * self.header['cluster_size']
	s = self.raw_pread(offset, size)
	table = [unpack_table_elem(s[i:i + table_elem_size]) for i in xrange(0, size, table_elem_size)]
	return table

	def load_l1_table(self):
	self.l1_table = self.read_table(self.header['l1_table_offset'])
	self.table_nelems = self.header['table_size'] * self.header['cluster_size'] / table_elem_size

	def write_table(self, offset, table):
	s = ''.join(pack_table_elem(x) for x in table)
	self.raw_pwrite(offset, s)

	def random_table_item(table):
	vals = [(index, offset) for index, offset in enumerate(table) if offset != 0]
	if not vals:
	err('cannot pick random item because table is empty')
	return random.choice(vals)

	def corrupt_table_duplicate(table):
	'''Corrupt a table by introducing a duplicate offset'''
	victim_idx, victim_val = random_table_item(table)
	unique_vals = set(table)
	if len(unique_vals) == 1:
	err('no duplication corruption possible in table')
	dup_val = random.choice(list(unique_vals.difference([victim_val])))
	table[victim_idx] = dup_val

	def corrupt_table_invalidate(qed, table):
	'''Corrupt a table by introducing an invalid offset'''
	index, _ = random_table_item(table)
	table[index] = qed.filesize + random.randint(0, 100 * 1024 * 1024 * 1024 * 1024)

	def cmd_show(qed, *args):
	'''show [header\|l1\|l2 <offset>]- Show header or l1/l2 tables'''
	if not args or args[0] == 'header':
	print qed.header
	elif args[0] == 'l1':
	print qed.l1_table
	elif len(args) == 2 and args[0] == 'l2':
	offset = int(args[1])
	print qed.read_table(offset)
	else:
	err('unrecognized sub-command')

	def cmd_duplicate(qed, table_level):
	'''duplicate l1\|l2 - Duplicate a random table element'''
	if table_level == 'l1':
	offset = qed.header['l1_table_offset']
	table = qed.l1_table
	elif table_level == 'l2':
	_, offset = random_table_item(qed.l1_table)
	table = qed.read_table(offset)
	else:
	err('unrecognized sub-command')
	corrupt_table_duplicate(table)
	qed.write_table(offset, table)

	def cmd_invalidate(qed, table_level):
	'''invalidate l1\|l2 - Plant an invalid table element at random'''
	if table_level == 'l1':
	offset = qed.header['l1_table_offset']
	table = qed.l1_table
	elif table_level == 'l2':
	_, offset = random_table_item(qed.l1_table)
	table = qed.read_table(offset)
	else:
	err('unrecognized sub-command')
	corrupt_table_invalidate(qed, table)
	qed.write_table(offset, table)

	def cmd_need_check(qed, *args):
	'''need-check [on\|off] - Test, set, or clear the QED_F_NEED_CHECK header bit'''
	if not args:
	print bool(qed.header['features'] & QED_F_NEED_CHECK)
	return

	if args[0] == 'on':
	qed.header['features'] \|= QED_F_NEED_CHECK
	elif args[0] == 'off':
	qed.header['features'] &= ~QED_F_NEED_CHECK
	else:
	err('unrecognized sub-command')
	qed.store_header()

	def cmd_zero_cluster(qed, pos, *args):
	'''zero-cluster <pos> [<n>] - Zero data clusters'''
	pos, n = int(pos), 1
	if args:
	if len(args) != 1:
	err('expected one argument')
	n = int(args[0])

	for i in xrange(n):
	l1_index = pos / qed.header['cluster_size'] / len(qed.l1_table)
	if qed.l1_table[l1_index] == 0:
	err('no l2 table allocated')

	l2_offset = qed.l1_table[l1_index]
	l2_table = qed.read_table(l2_offset)

	l2_index = (pos / qed.header['cluster_size']) % len(qed.l1_table)
	l2_table[l2_index] = 1 # zero the data cluster
	qed.write_table(l2_offset, l2_table)
	pos += qed.header['cluster_size']

	def cmd_copy_metadata(qed, outfile):
	'''copy-metadata <outfile> - Copy metadata only (for scrubbing corrupted images)'''
	out = open(outfile, 'wb')

	# Match file size
	out.seek(qed.filesize - 1)
	out.write('\0')

	# Copy header clusters
	out.seek(0)
	header_size_bytes = qed.header['header_size'] * qed.header['cluster_size']
	out.write(qed.raw_pread(0, header_size_bytes))

	# Copy L1 table
	out.seek(qed.header['l1_table_offset'])
	s = ''.join(pack_table_elem(x) for x in qed.l1_table)
	out.write(s)

	# Copy L2 tables
	for l2_offset in qed.l1_table:
	if l2_offset == 0:
	continue
	l2_table = qed.read_table(l2_offset)
	out.seek(l2_offset)
	s = ''.join(pack_table_elem(x) for x in l2_table)
	out.write(s)

	out.close()

	def usage():
	print 'Usage: %s <file> <cmd> [<arg>, ...]' % sys.argv[0]
	print
	print 'Supported commands:'
	for cmd in sorted(x for x in globals() if x.startswith('cmd_')):
	print globals()[cmd].__doc__
	sys.exit(1)

	def main():
	if len(sys.argv) < 3:
	usage()
	filename, cmd = sys.argv[1:3]

	cmd = 'cmd_' + cmd.replace('-', '_')
	if cmd not in globals():
	usage()

	qed = QED(open(filename, 'r+b'))
	try:
	globals()[cmd](qed, *sys.argv[3:])
	except TypeError, e:
	sys.stderr.write(globals()[cmd].__doc__ + '\n')
	sys.exit(1)

	if __name__ == '__main__':
	main()