def analyze_first_layer(image_obj, master_list, redo): # find the binary and shell by mounting the base layer target = rootfs.mount_base_layer(image_obj.layers[0].tar_file) binary = common.get_base_bin() shell = get_shell(image_obj, binary) # set up a notice origin for the first layer origin_first_layer = 'Layer: ' + image_obj.layers[0].fs_hash[:10] # only extract packages if there is a known binary and the layer is not # cached if binary: if not common.load_from_cache(image_obj.layers[0], redo): # Determine pacakge/os style from binary in the image layer common.get_os_style(image_obj.layers[0], binary) # get the packages of the first layer rootfs.prep_rootfs(target) common.add_base_packages(image_obj.layers[0], binary, shell) # unmount proc, sys and dev rootfs.undo_mount() else: logger.warning(errors.no_package_manager) # /etc/os-release may still be present even if binary is not common.get_os_style(image_obj.layers[0], None) image_obj.layers[0].origins.add_notice_to_origins( origin_first_layer, Notice(errors.no_package_manager, 'warning')) # no binary means there is no shell so set to default shell logger.warning('Unknown filesystem. Using default shell') shell = constants.shell # unmount the first layer rootfs.unmount_rootfs() # populate the master list with all packages found in the first layer for p in image_obj.layers[0].packages: master_list.append(p) return shell
def analyze_subsequent_layers(image_obj, shell, master_list, redo): # get packages for subsequent layers curr_layer = 1 while curr_layer < len(image_obj.layers): if not common.load_from_cache(image_obj.layers[curr_layer], redo): # get commands that created the layer # for docker images this is retrieved from the image history command_list = dhelper.get_commands_from_history( image_obj.layers[curr_layer]) if command_list: # mount diff layers from 0 till the current layer target = mount_overlay_fs(image_obj, curr_layer) # mount dev, sys and proc after mounting diff layers rootfs.prep_rootfs(target) # for each command look up the snippet library for command in command_list: pkg_listing = command_lib.get_package_listing(command.name) if isinstance(pkg_listing, str): common.add_base_packages(image_obj.layers[curr_layer], pkg_listing, shell) else: common.add_snippet_packages(image_obj.layers[curr_layer], command, pkg_listing, shell) if command_list: rootfs.undo_mount() rootfs.unmount_rootfs() # update the master list common.update_master_list(master_list, image_obj.layers[curr_layer]) curr_layer = curr_layer + 1
def analyze_docker_image(image_obj, redo=False, dockerfile=False): # pylint: disable=too-many-locals '''Given a DockerImage object, for each layer, retrieve the packages, first looking up in cache and if not there then looking up in the command library. For looking up in command library first mount the filesystem and then look up the command library for commands to run in chroot''' # find the layers that are imported if dockerfile: dhelper.set_imported_layers(image_obj) # add notices for each layer if it is imported image_setup(image_obj) shell = '' # set up empty master list of packages master_list = [] # find the binary by mounting the base layer target = rootfs.mount_base_layer(image_obj.layers[0].tar_file) binary = common.get_base_bin() # set up a notice origin referring to the base command library listing origin_command_lib = formats.invoking_base_commands # set up a notice origin for the first layer origin_first_layer = 'Layer: ' + image_obj.layers[0].fs_hash[:10] # find the shell to invoke commands in shell, _ = command_lib.get_image_shell( command_lib.get_base_listing(binary)) if not shell: # add a warning notice for no shell in the command library logger.warning('No shell listing in command library. ' 'Using default shell') no_shell_message = errors.no_shell_listing.format( binary=binary, default_shell=constants.shell) image_obj.layers[0].origins.add_notice_to_origins( origin_command_lib, Notice(no_shell_message, 'warning')) # add a hint notice to add the shell to the command library add_shell_message = errors.no_listing_for_base_key.format( listing_key='shell') image_obj.layers[0].origins.add_notice_to_origins( origin_command_lib, Notice(add_shell_message, 'hint')) shell = constants.shell # only extract packages if there is a known binary and the layer is not # cached if binary: if not common.load_from_cache(image_obj.layers[0], redo): # get the packages of the first layer rootfs.prep_rootfs(target) common.add_base_packages(image_obj.layers[0], binary, shell) # unmount proc, sys and dev rootfs.undo_mount() else: no_base = errors.unrecognized_base.format( image_name=image_obj.name, image_tag=image_obj.tag) logger.warning(no_base) image_obj.layers[0].origins.add_notice_to_origins( origin_first_layer, Notice(no_base, 'warning')) # no binary means there is no shell so set to default shell logger.warning('Unknown filesystem. Using default shell') shell = constants.shell # unmount the first layer rootfs.unmount_rootfs() # populate the master list with all packages found in the first layer for p in image_obj.layers[0].packages: master_list.append(p) # get packages for subsequent layers curr_layer = 1 while curr_layer < len(image_obj.layers): if not common.load_from_cache(image_obj.layers[curr_layer], redo): # get commands that created the layer # for docker images this is retrieved from the image history command_list = dhelper.get_commands_from_history( image_obj.layers[curr_layer]) if command_list: # mount diff layers from 0 till the current layer target = mount_overlay_fs(image_obj, curr_layer) # mount dev, sys and proc after mounting diff layers rootfs.prep_rootfs(target) # for each command look up the snippet library for command in command_list: pkg_listing = command_lib.get_package_listing(command.name) if isinstance(pkg_listing, str): common.add_base_packages( image_obj.layers[curr_layer], pkg_listing, shell) else: common.add_snippet_packages( image_obj.layers[curr_layer], command, pkg_listing, shell) if command_list: rootfs.undo_mount() rootfs.unmount_rootfs() # update the master list common.update_master_list(master_list, image_obj.layers[curr_layer]) curr_layer = curr_layer + 1 common.save_to_cache(image_obj)