def testMemoryImageLiteralMatchFilterWithSendToSocketAction(self): literal_filter = rdfvalue.MemoryScannerFilter( filter_type=rdfvalue.MemoryScannerFilter.Type.LITERAL_MATCH, literal_match=rdfvalue.FileFinderContentsLiteralMatchFilter( mode=rdfvalue.FileFinderContentsLiteralMatchFilter.Mode. ALL_HITS, literal="session opened for user dearjohn")) dump_option = rdfvalue.MemoryScannerDumpOption( option_type=rdfvalue.MemoryScannerDumpOption.Option. WITH_LOCAL_COPY, with_local_copy=rdfvalue.MemoryScannerWithLocalCopyDumpOption( gzip=False)) flow_urn, encrypted, decrypted = self.RunWithSendToSocket( dump_option, filters=[literal_filter]) # Check that matches are in the collection output = aff4.FACTORY.Open(self.client_id.Add(self.output_path), aff4_type="RDFValueCollection", token=self.token) self.assertEqual(len(output), 1) self.assertEqual(output[0].offset, 350) self.assertEqual(output[0].length, 52) self.assertEqual( output[0].data, "session): session opened for user " "dearjohn by (uid=0") flow_obj = aff4.FACTORY.Open(flow_urn, token=self.token) # There was a local file, so dest_path should not be empty self.assertTrue(flow_obj.state.memory_src_path is not None) # Data should be encrypted, so they're not equal self.assertNotEqual(encrypted, self.memory_dump) # Decrypted data should be equal to the memory dump self.assertEqual(decrypted, self.memory_dump)
def testMemoryImageWithoutLocalCopySendToSocket(self): dump_option = rdfvalue.MemoryScannerDumpOption( option_type=rdfvalue.MemoryScannerDumpOption.Option. WITHOUT_LOCAL_COPY) (flow_urn, encrypted, decrypted) = self.RunWithSendToSocket(dump_option) flow_obj = aff4.FACTORY.Open(flow_urn, token=self.token) # There was a local file, so dest_path should not be empty self.assertTrue(flow_obj.state.memory_src_path is not None) # Data should be encrypted, so they're not equal self.assertNotEqual(encrypted, self.memory_dump) # Decrypted data should be equal to the memory dump self.assertEqual(decrypted, self.memory_dump)
def testMemoryImageWithoutLocalCopyDownload(self): dump_option = rdfvalue.MemoryScannerDumpOption( option_type=rdfvalue.MemoryScannerDumpOption.Option. WITHOUT_LOCAL_COPY) flow_obj = self.RunWithDownload(dump_option) self.assertEqual(flow_obj.state.memory_src_path.path, self.memory_file) self.assertEqual( flow_obj.state.downloaded_file, self.client_id.Add("fs/os").Add( flow_obj.state.memory_src_path.path)) fd = aff4.FACTORY.Open(flow_obj.state.downloaded_file, token=self.token) self.assertEqual(fd.Read(1024 * 1024), self.memory_dump)
def testMemoryImageLocalCopySendToSocketWithOffsetAndLength(self): dump_option = rdfvalue.MemoryScannerDumpOption( option_type=rdfvalue.MemoryScannerDumpOption.Option. WITH_LOCAL_COPY, with_local_copy=rdfvalue.MemoryScannerWithLocalCopyDumpOption( offset=10, length=42, gzip=False)) flow_urn, encrypted, decrypted = self.RunWithSendToSocket(dump_option) flow_obj = aff4.FACTORY.Open(flow_urn, token=self.token) # There was a local file, so dest_path should not be empty self.assertTrue(flow_obj.state.memory_src_path is not None) # Data should be encrypted, so they're not equal self.assertNotEqual(encrypted, self.memory_dump) # Decrypted data should be equal to the memory dump self.assertEqual(decrypted, self.memory_dump[10:52])
def testMemoryImageLocalCopyDownload(self): dump_option = rdfvalue.MemoryScannerDumpOption( option_type=rdfvalue.MemoryScannerDumpOption.Option. WITH_LOCAL_COPY, with_local_copy=rdfvalue.MemoryScannerWithLocalCopyDumpOption( gzip=False)) flow_obj = self.RunWithDownload(dump_option) self.assertTrue(flow_obj.state.memory_src_path is not None) self.assertEqual( flow_obj.state.downloaded_file, self.client_id.Add("fs/os").Add( flow_obj.state.memory_src_path.path)) fd = aff4.FACTORY.Open(flow_obj.state.downloaded_file, token=self.token) self.assertEqual(fd.Read(1024 * 1024), self.memory_dump)
def testDoesNothingWhenFilterDoesNotMatch(self): literal_filter = rdfvalue.MemoryScannerFilter( filter_type=rdfvalue.MemoryScannerFilter.Type.LITERAL_MATCH, literal_match=rdfvalue.FileFinderContentsLiteralMatchFilter( mode=rdfvalue.FileFinderContentsLiteralMatchFilter.Mode. ALL_HITS, literal="session opened for user foobar")) dump_option = rdfvalue.MemoryScannerDumpOption( option_type=rdfvalue.MemoryScannerDumpOption.Option. WITH_LOCAL_COPY, with_local_copy=rdfvalue.MemoryScannerWithLocalCopyDumpOption( gzip=False)) flow_obj = self.RunWithDownload(dump_option, filters=[literal_filter]) # Check that there are no matches with self.assertRaises(aff4.InstantiationError): aff4.FACTORY.Open(self.client_id.Add(self.output_path), aff4_type="RDFValueCollection", token=self.token) # Assert nothing got downloaded self.assertTrue("dest_path" not in flow_obj.state) self.assertTrue("downloaded_file" not in flow_obj.state)
def testMemoryImageLiteralMatchFilterWithDownloadAction(self): literal_filter = rdfvalue.MemoryScannerFilter( filter_type=rdfvalue.MemoryScannerFilter.Type.LITERAL_MATCH, literal_match=rdfvalue.FileFinderContentsLiteralMatchFilter( mode=rdfvalue.FileFinderContentsLiteralMatchFilter.Mode. ALL_HITS, literal="session opened for user dearjohn")) dump_option = rdfvalue.MemoryScannerDumpOption( option_type=rdfvalue.MemoryScannerDumpOption.Option. WITH_LOCAL_COPY, with_local_copy=rdfvalue.MemoryScannerWithLocalCopyDumpOption( gzip=False)) flow_obj = self.RunWithDownload(dump_option, filters=[literal_filter]) # Check that matches are in the collection output = aff4.FACTORY.Open(self.client_id.Add(self.output_path), aff4_type="RDFValueCollection", token=self.token) # First item of the collection is the BufferReference, second is the # path of the downloaded self.assertEqual(len(output), 1) self.assertEqual(output[0].offset, 350) self.assertEqual(output[0].length, 52) self.assertEqual( output[0].data, "session): session opened for user " "dearjohn by (uid=0") self.assertTrue(flow_obj.state.memory_src_path is not None) self.assertEqual( flow_obj.state.downloaded_file, self.client_id.Add("fs/os").Add( flow_obj.state.memory_src_path.path)) fd = aff4.FACTORY.Open(flow_obj.state.downloaded_file, token=self.token) self.assertEqual(fd.Read(1024 * 1024), self.memory_dump)