inspec/lib/bundles/inspec-artifact/cli.rb
Adam Leff 4b9acb4800 Bump Rubocop to 0.49.1 (#2323)
* Bump Rubocop to 0.49.1

This change bumps Rubocop to 0.49.1. There have been a lot of changes
since 0.39.0 and this PR is hopefully a nice compromise of turning off
certain cops and updating our codebase to take advantage of new Ruby
2.3 methods and operators.

Signed-off-by: Adam Leff <adam@leff.co>

* Set end-of-line format to line-feed only, avoid Windows-related CRLF issues

Signed-off-by: Adam Leff <adam@leff.co>
2017-11-21 08:49:41 +01:00

279 lines
8.9 KiB
Ruby

# encoding: utf-8
# frozen_string_literal: true
require 'base64'
require 'openssl'
require 'pathname'
require 'set'
require 'tempfile'
require 'yaml'
# Notes:
#
# Generate keys
# The initial implementation uses 2048 bit RSA key pairs (public + private).
# Public keys must be available for a customer to install and verify an artifact.
# Private keys should be stored in a secure location and NOT be distributed.
# (They're only for creating artifacts).
#
#
# .IAF file format
# .iaf = "Inspec Artifact File", easy to rename if you'd like something more appropriate.
# The iaf file wraps a binary artifact with some metadata. The first implementation
# looks like this:
#
# INSPEC-PROFILE-1
# name_of_signing_key
# algorithm
# signature
# <empty line>
# binary-blob
# <eof>
#
# Let's look at each line:
# INSPEC-PROFILE-1:
# This is the artifact version descriptor. It should't change unless the
# format of the archive changes.
#
# name_of_signing_key
# The name of the public key that can be used to verify an artifact
#
# algorithm
# The digest used to sign, I picked SHA512 to start with.
# If we support multiple digests, we'll need to have the verify() method
# support each digest.
#
# signature
# The result of passing the binary artifact through the digest algorithm above.
# Result is base64 encoded.
#
# <empty line>
# We use an empty line to separate artifact header from artifact body (binary blob).
# The artifact body can be anything you like.
#
# binary-blob
# A binary blob, most likely a .tar.gz or tar.xz file. We'll need to pick one and
# stick with it as part of the "INSPEC-PROFILE-1" artifact version. If we change block
# format, the artifact version descriptor must be incremented, and the sign()
# and verify() methods must be updated to support a newer version.
#
#
# Key revocation
# This implementation doesn't support key revocation. However, a customer
# can remove the public cert file before installation, and artifacts will then
# fail verification.
#
# Key locations
# This implementation uses the current working directory to find public and
# private keys. We should establish a common key directory (similar to /hab/cache/keys
# or ~/.hab/cache/keys in Habitat).
#
# Extracting artifacts outside of Inspec
# As in Habitat, the artifact format for Inspec allows the use of common
# Unix tools to read the header and body of an artifact.
# To extract the header from a .iaf:
# sed '/^$/q' foo.iaf
# To extract the raw content from a .iaf:
# sed '1,/^$/d' foo.iaf
module Artifact
KEY_BITS=2048
KEY_ALG=OpenSSL::PKey::RSA
INSPEC_PROFILE_VERSION_1='INSPEC-PROFILE-1'
INSPEC_REPORT_VERSION_1='INSPEC-REPORT-1'
ARTIFACT_DIGEST=OpenSSL::Digest::SHA512
ARTIFACT_DIGEST_NAME='SHA512'
VALID_PROFILE_VERSIONS=Set.new [INSPEC_PROFILE_VERSION_1]
VALID_PROFILE_DIGESTS=Set.new [ARTIFACT_DIGEST_NAME]
SIGNED_PROFILE_SUFFIX='iaf'
SIGNED_REPORT_SUFFIX='iar'
# rubocop:disable Metrics/ClassLength
class CLI < Inspec::BaseCLI
namespace 'artifact'
# TODO: find another solution, once https://github.com/erikhuda/thor/issues/261 is fixed
def self.banner(command, _namespace = nil, _subcommand = false)
"#{basename} #{subcommand_prefix} #{command.usage}"
end
def self.subcommand_prefix
namespace
end
desc 'generate', 'Generate a RSA key pair for signing and verification'
option :keyname, type: :string, required: true,
desc: 'Desriptive name of key'
option :keydir, type: :string, default: './',
desc: 'Directory to search for keys'
def generate_keys
puts 'Generating keys'
keygen
end
desc 'sign-profile', 'Create a signed .iaf artifact'
option :profile, type: :string, required: true,
desc: 'Path to profile directory'
option :keyname, type: :string, required: true,
desc: 'Desriptive name of key'
def sign_profile
profile_sign
end
desc 'verify-profile', 'Verify a signed .iaf artifact'
option :infile, type: :string, required: true,
desc: '.iaf file to verify'
def verify_profile
profile_verify
end
desc 'install-profile', 'Verify and install a signed .iaf artifact'
option :infile, type: :string, required: true,
desc: '.iaf file to install'
option :destdir, type: :string, required: true,
desc: 'Installation directory'
def install_profile
profile_install
end
private
def keygen
key = KEY_ALG.new KEY_BITS
puts 'Generating private key'
open "#{options['keyname']}.pem.key", 'w' do |io| io.write key.to_pem end
puts 'Generating public key'
open "#{options['keyname']}.pem.pub", 'w' do |io| io.write key.public_key.to_pem end
end
def read_profile_metadata(path_to_profile)
begin
p = Pathname.new(path_to_profile)
p = p.join('inspec.yml')
if not p.exist?
raise "#{path_to_profile} doesn't appear to be a valid Inspec profile"
end
yaml = YAML.load_file(p.to_s)
yaml = yaml.to_hash
if not yaml.key? 'name'
raise 'Profile is invalid, name is not defined'
end
if not yaml.key? 'version'
raise 'Profile is invalid, version is not defined'
end
rescue => e
# rewrap it and pass it up to the CLI
raise "Error reading Inspec profile metadata: #{e}"
end
yaml
end
def profile_compress(path_to_profile, profile_md, workdir)
profile_name = profile_md['name']
profile_version = profile_md['version']
outfile_name = "#{workdir}/#{profile_name}-#{profile_version}.tar.gz"
`tar czf #{outfile_name} -C #{path_to_profile} .`
outfile_name
end
def profile_sign
Dir.mktmpdir do |workdir|
puts "Signing #{options['profile']} with key #{options['keyname']}"
path_to_profile = options['profile']
profile_md = read_profile_metadata(path_to_profile)
artifact_filename = "#{profile_md['name']}-#{profile_md['version']}.#{SIGNED_PROFILE_SUFFIX}"
tarfile = profile_compress(path_to_profile, profile_md, workdir)
content = IO.binread(tarfile)
signing_key = KEY_ALG.new File.read "#{options['keyname']}.pem.key"
sha = ARTIFACT_DIGEST.new
signature = signing_key.sign sha, content
# convert the signature to Base64
signature_base64 = Base64.encode64(signature)
tar_content = IO.binread(tarfile)
File.open(artifact_filename, 'wb') do |f|
f.puts(INSPEC_PROFILE_VERSION_1)
f.puts(options['keyname'])
f.puts(ARTIFACT_DIGEST_NAME)
f.puts(signature_base64)
f.puts('') # newline separates artifact header with body
f.write(tar_content)
end
puts "Successfully generated #{artifact_filename}"
end
end
def valid_header?(file_alg, file_version, file_keyname)
public_keyfile = "#{file_keyname}.pem.pub"
puts "Looking for #{public_keyfile} to verify artifact"
if !File.exist? public_keyfile
raise "Can't find #{public_keyfile}"
end
raise 'Invalid artifact digest algorithm detected' if !VALID_PROFILE_DIGESTS.member?(file_alg)
raise 'Invalid artifact version detected' if !VALID_PROFILE_VERSIONS.member?(file_version)
end
def verify(file_to_verifiy, &content_block)
f = File.open(file_to_verifiy, 'r')
file_version = f.readline.strip!
file_keyname = f.readline.strip!
file_alg = f.readline.strip!
file_sig = ''
# the signature is multi-line
while (line = f.readline) != "\n"
file_sig += line
end
file_sig.strip!
f.close
valid_header?(file_alg, file_version, file_keyname)
public_keyfile = "#{file_keyname}.pem.pub"
verification_key = KEY_ALG.new File.read public_keyfile
f = File.open(file_to_verifiy, 'r')
while f.readline != "\n" do end
content = f.read
signature = Base64.decode64(file_sig)
digest = ARTIFACT_DIGEST.new
if verification_key.verify digest, signature, content
content_block.yield(content)
else
puts 'Artifact is invalid'
end
end
def profile_verify
file_to_verifiy = options['infile']
puts "Verifying #{file_to_verifiy}"
verify(file_to_verifiy) do ||
puts 'Artifact is valid'
end
end
def profile_install
puts 'Installing profile'
file_to_verifiy = options['infile']
dest_dir = options['destdir']
verify(file_to_verifiy) do |content|
Dir.mktmpdir do |workdir|
tmpfile = Pathname.new(workdir).join('artifact_to_install.tar.gz')
File.write(tmpfile, content)
puts "Installing to #{dest_dir}"
`tar xzf #{tmpfile} -C #{dest_dir}`
end
end
end
end
# register the subcommand to Inspec CLI registry
Inspec::Plugins::CLI.add_subcommand(Artifact::CLI, 'artifact', 'artifact SUBCOMMAND ...', 'Sign, verify and install artifacts', {})
end