bom
is a utility that lets you create, view and transform Software Bills of
Materials (SBOMs). bom
was created as part of the project to create an SBOM
for the Kubernetes project. It enables software authors to generate an
SBOM for their projects in a simple, yet powerful way.
bom is a project incubating in the Linux Foundation's Automating Compliance Toling TAC
bom
is a general-purpose tool that can generate SPDX packages from
directories, container images, single files, and other sources. The utility
has a built-in license classifier that recognizes the 400+ licenses in
the SPDX catalog.
Other features include Golang dependency analysis and full .gitignore
support when scanning git repositories.
For more in-depth instructions on how to create an SBOM for your project, see "Generating a Bill of Materials for Your Project".
The guide includes information about what a Software Bill of Materials is, the SPDX standard, and instructions to add files, images, directories, and other sources to your SBOM.
To install bom
:
go install sigs.k8s.io/bom/cmd/bom@latest
- completion: generate the autocompletion script for the specified shell
- document: Work with SPDX documents
- generate: Create SPDX manifests
- help: Help about any command
bom generate
is the bom
subcommand to generate SPDX manifests.
Currently supports creating SBOM from files, images, and docker archives (images in tarballs). It supports pulling images from remote registries for analysis.
bom can take a deeper look into images using a growing number of analyzers designed to add more sense to common base images.
The SBOM data can also be exported to an in-toto provenance attestation. The output will produce a provenance statement listing all the SPDX data as in-toto subjects, but otherwise ready to be completed by a later stage in your CI/CD pipeline. See the --provenance flag for more details.
Usage:
bom generate [flags]
Flags:
-a, --analyze-images go deeper into images using the available analyzers
--archive strings list of archives to add as packages (supports tar, tar.gz)
-c, --config string path to yaml SBOM configuration file
-d, --dirs strings list of directories to include in the manifest as packages
-f, --file strings list of files to include
--format string format of the document (supports tag-value, json) (default "tag-value")
-h, --help help for generate
--ignore strings list of regexp patterns to ignore when scanning directories
-i, --image strings list of images
--image-archive strings list of docker archive tarballs to include in the manifest
-l, --license string SPDX license identifier to declare in the SBOM
--name string name for the document, in contrast to URLs, intended for humans
-n, --namespace string an URI that serves as namespace for the SPDX doc
--no-gitignore don't use exclusions from .gitignore files
--no-gomod don't perform go.mod analysis, sbom will not include data about go packages
--no-transient don't include transient go dependencies, only direct deps from go.mod
-o, --output string path to the file where the document will be written (defaults to STDOUT)
--provenance string path to export the SBOM as an in-toto provenance statement
--scan-images scan container images to look for OS information (currently debian only) (default true)
Global Flags:
--log-level string the logging verbosity, either 'panic', 'fatal', 'error', 'warning', 'info', 'debug', 'trace' (default "info")
The bom document subcommand
can visualize SBOMs as well as query them for
information.
bom document → Work with SPDX documents
Usage:
bom document [command]
Available Commands:
outline bom document outline → Draw structure of a SPDX document
query bom document query → Search for information in an SBOM
Using bom document outline
SBOM contents can be rendered too see how the
information they contain is structured. Here is an example rendering the
debian:bookworm-slim
image for amd64:
bom generate --output=debian.spdx --image \
debian@sha256:0aac521df91463e54189d82fe820b6d36b4a0992751c8339fbdd42e2bc1aa491 | bom document outline -
bom document outline debian.spdx
_
___ _ __ __| |_ __
/ __| '_ \ / _` \ \/ /
\__ \ |_) | (_| |> <
|___/ .__/ \__,_/_/\_\
|_|
📂 SPDX Document SBOM-SPDX-71f1009c-dc17-4f4d-b4ec-72210c1a8d7f
│
│ 📦 DESCRIBES 1 Packages
│
├ sha256:0aac521df91463e54189d82fe820b6d36b4a0992751c8339fbdd42e2bc1aa491
│ │ 🔗 1 Relationships
│ └ CONTAINS PACKAGE sha256:b37cbf60a964400132f658413bf66b67e5e67da35b9c080be137ff3c37cc7f65
│ │ │ 🔗 86 Relationships
│ │ ├ CONTAINS PACKAGE apt@2.5.4
│ │ ├ CONTAINS PACKAGE base-files@12.3
│ │ ├ CONTAINS PACKAGE base-passwd@3.6.1
│ │ ├ CONTAINS PACKAGE bash@5.2.15-2
│ │ ├ CONTAINS PACKAGE bsdutils@1:2.38.1-4
│ │ ├ CONTAINS PACKAGE coreutils@9.1-1
│ │ ├ CONTAINS PACKAGE dash@0.5.11+git20210903+057cd650a4ed-9
│ │ ├ CONTAINS PACKAGE debconf@1.5.81
│ │ ├ CONTAINS PACKAGE debian-archive-keyring@2021.1.1
│ │ ├ CONTAINS PACKAGE debianutils@5.7-0.4
│ │ ├ CONTAINS PACKAGE diffutils@1:3.8-3
│ │ ├ CONTAINS PACKAGE dpkg@1.21.13
│ │ ├ CONTAINS PACKAGE e2fsprogs@1.46.6~rc1-1+b1
│ │ ├ CONTAINS PACKAGE findutils@4.9.0-3
│ │ ├ CONTAINS PACKAGE gcc-12-base@12.2.0-13
│ │ ├ CONTAINS PACKAGE gpgv@2.2.40-1
│ │ ├ CONTAINS PACKAGE grep@3.8-3
│ │ ├ CONTAINS PACKAGE gzip@1.12-1
│ │ ├ CONTAINS PACKAGE hostname@3.23+nmu1
│ │ ├ CONTAINS PACKAGE init-system-helpers@1.65.2
[trimmed]
The following examples show how bom can process different sources to generate an SPDX Bill of Materials. Multiple sources can be combined to get a document describing different packages.
To process a directory as a source for your SBOM, use the -d
flag or simply pass
the path (or current dir) as the first argument to bom generate
:
bom generate .
This example pulls the kube-apiserver
image, analyzes it, and describes in the
SBOM. Each of its layers are then expressed as a subpackage in the resulting
document:
bom generate -n http://example.com/ --image registry.k8s.io/kube-apiserver:v1.21.0
You can create an SBOM with just files in the manifest. For that, use -f
:
bom generate -n http://example.com/ \
-f Makefile \
-f file1.exe \
-f document.md \
-f other/file.txt
Participation in the Kubernetes community is governed by the Kubernetes Code of Conduct.