#!/usr/bin/python2.7 # xdelta3 - delta compression tools and library -*- Mode: C++ -*- # Copyright 2016 Joshua MacDonald # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import xdelta3 # the test data section is expected to be len('target') source = 'source source input0 source source' target = 'source source target source source' # # print 'encode: basic ...' result, patch = xdelta3.xd3_encode_memory(target, source, 50) assert result == 0 assert len(patch) < len(source) print 'encode: adler32 ...' result, patch_adler32 = xdelta3.xd3_encode_memory(target, source, 50, xdelta3.XD3_ADLER32) assert result == 0 assert len(patch_adler32) < len(source) assert len(patch_adler32) > len(patch) print 'encode: secondary ...' result, patch_djw = xdelta3.xd3_encode_memory(target, source, 50, xdelta3.XD3_SEC_DJW) assert result == 0 # secondary compression doesn't help assert len(patch_djw) > len(patch) print 'encode: exact ...' result, ignore = xdelta3.xd3_encode_memory(target, source, len(patch)) assert result == 0 assert len(ignore) < len(source) print 'encode: out of space ...' result, ignore = xdelta3.xd3_encode_memory(target, source, len(patch) - 1) assert result == 28 assert ignore == None print 'encode: zero space ...' result, ignore = xdelta3.xd3_encode_memory(target, source, 0) assert result == 28 assert ignore == None print 'encode: no source ...' result, zdata = xdelta3.xd3_encode_memory(target, None, 50) assert result == 0 assert len(zdata) > len(patch) print 'encode: no input ...' result, ignore = xdelta3.xd3_encode_memory(None, None, 50) assert result != 0 print 'decode: basic ...' result, target1 = xdelta3.xd3_decode_memory(patch, source, len(target)) assert result == 0 assert len(target1) == len(target) assert target1 == target print 'decode: out of space ...' result, ignore = xdelta3.xd3_decode_memory(patch, source, len(target) - 1) assert result == 28 assert ignore == None print 'decode: zero space ...' result, ignore = xdelta3.xd3_decode_memory(patch, source, 0) assert result == 28 assert ignore == None print 'decode: single byte error ...' # a few expected single-byte errors, e.g., unused address cache bits, see # xdelta3-test.h's single-bit error tests extra_count = 4 noverify_count = 0 for corrupt_pos in range(len(patch_adler32)): input = ''.join([j == corrupt_pos and '\xff' or patch_adler32[j] for j in range(len(patch_adler32))]) result, ignore = xdelta3.xd3_decode_memory(input, source, len(target), 0) assert result == -17712 assert ignore == None # without adler32 verification, the error may be in the data section which # in this case is 6 bytes 'target' result, corrupt = xdelta3.xd3_decode_memory(input, source, len(target), xdelta3.XD3_ADLER32_NOVER) if result == 0: noverify_count = noverify_count + 1 #print "got %s" % corrupt #end #end assert noverify_count == len('target') + extra_count print 'decode: no source ...' result, target2 = xdelta3.xd3_decode_memory(zdata, None, len(target)) assert result == 0 assert target == target2 # Test compression level setting via flags. assumes a 9 byte checksum # and that level 9 steps 2, level 1 steps 15: # 01234567890123456789012345678901 # level 1 only indexes 2 checksums "abcdefghi" and "ABCDEFGHI" # outputs 43 vs. 23 bytes print 'encode: compression level ...' source = '_la_la_abcdefghi_la_la_ABCDEFGHI' target = 'la_la_ABCDEFGH__la_la_abcdefgh__' result1, level1 = xdelta3.xd3_encode_memory(target, source, 50, xdelta3.XD3_COMPLEVEL_1) result9, level9 = xdelta3.xd3_encode_memory(target, source, 50, xdelta3.XD3_COMPLEVEL_9) assert result1 == 0 and result9 == 0 assert len(level1) > len(level9) # # Issue 65 print 'encode: 65 ...' source = 'Hello World' target = 'Hello everyone' result, patch = xdelta3.xd3_encode_memory(target, source, len(target)) assert result != 0 result, patch = xdelta3.xd3_encode_memory(target, source, 2 * len(target)) assert result == 0 print 'PASS'