124 lines
5.9 KiB
Ruby
124 lines
5.9 KiB
Ruby
class Step < Formula
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desc "Crypto and x509 Swiss-Army-Knife"
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homepage "https://smallstep.com"
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url "https://github.com/smallstep/cli/releases/download/v0.18.1/step_0.18.1.tar.gz"
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sha256 "88347013784eae1eed7622b3a35805db2eeef7df52dcd044bb89fc325deee9fe"
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license "Apache-2.0"
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bottle do
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sha256 cellar: :any_skip_relocation, arm64_monterey: "0f11e2186f957ab82e4f4926319526bf6f7936e1f43f8920c0ff76ef62634712"
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sha256 cellar: :any_skip_relocation, arm64_big_sur: "9609fb4fbc5407e97da42ca52aebf5fe1b314d9137f821650581ce8e6b5158ed"
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sha256 cellar: :any_skip_relocation, monterey: "381bfbce82de1dc79fd73411cc64ef805126c244fc5bda390659dafbef1334ad"
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sha256 cellar: :any_skip_relocation, big_sur: "19fd69dfe0e5f2fb42cbd9a566ce54e76309977b2bf19d0f789853f5facef813"
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sha256 cellar: :any_skip_relocation, catalina: "ce3df7a221f0189eb507d933bbed03c4e9a3adfacbec0aeb20aff87c8f970b21"
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sha256 cellar: :any_skip_relocation, x86_64_linux: "825df571c32c36a42e42903cc84333bb4c7505b3c1e8f6a07666ec2b7c9bc0a6"
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end
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depends_on "go" => :build
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resource "certificates" do
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url "https://github.com/smallstep/certificates/releases/download/v0.18.1/step-ca_0.18.1.tar.gz"
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sha256 "06bc91161cb755e5b74814a3d92e08027182af1ee23f882480b897211359bdbc"
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end
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def install
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ENV["VERSION"] = version.to_s
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ENV["CGO_OVERRIDE"] = "CGO_ENABLED=1"
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system "make", "build"
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bin.install "bin/step" => "step"
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bash_completion.install "autocomplete/bash_autocomplete" => "step"
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zsh_completion.install "autocomplete/zsh_autocomplete" => "_step"
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resource("certificates").stage do |r|
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ENV["VERSION"] = r.version.to_s
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ENV["CGO_OVERRIDE"] = "CGO_ENABLED=1"
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system "make", "build"
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bin.install "bin/step-ca" => "step-ca"
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end
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end
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test do
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# Generate a public / private key pair. Creates foo.pub and foo.priv.
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system "#{bin}/step", "crypto", "keypair", "foo.pub", "foo.priv", "--no-password", "--insecure"
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assert_predicate testpath/"foo.pub", :exist?
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assert_predicate testpath/"foo.priv", :exist?
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# Generate a root certificate and private key with subject baz written to baz.crt and baz.key.
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system "#{bin}/step", "certificate", "create", "--profile", "root-ca",
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"--no-password", "--insecure", "baz", "baz.crt", "baz.key"
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assert_predicate testpath/"baz.crt", :exist?
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assert_predicate testpath/"baz.key", :exist?
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baz_crt = File.read(testpath/"baz.crt")
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assert_match(/^-----BEGIN CERTIFICATE-----.*/, baz_crt)
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assert_match(/.*-----END CERTIFICATE-----$/, baz_crt)
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baz_key = File.read(testpath/"baz.key")
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assert_match(/^-----BEGIN EC PRIVATE KEY-----.*/, baz_key)
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assert_match(/.*-----END EC PRIVATE KEY-----$/, baz_key)
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shell_output("#{bin}/step certificate inspect --format json baz.crt > baz_crt.json")
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baz_crt_json = JSON.parse(File.read(testpath/"baz_crt.json"))
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assert_equal "CN=baz", baz_crt_json["subject_dn"]
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assert_equal "CN=baz", baz_crt_json["issuer_dn"]
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# Generate a leaf certificate signed by the previously created root.
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system "#{bin}/step", "certificate", "create", "--profile", "intermediate-ca",
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"--no-password", "--insecure", "--ca", "baz.crt", "--ca-key", "baz.key",
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"zap", "zap.crt", "zap.key"
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assert_predicate testpath/"zap.crt", :exist?
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assert_predicate testpath/"zap.key", :exist?
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zap_crt = File.read(testpath/"zap.crt")
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assert_match(/^-----BEGIN CERTIFICATE-----.*/, zap_crt)
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assert_match(/.*-----END CERTIFICATE-----$/, zap_crt)
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zap_key = File.read(testpath/"zap.key")
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assert_match(/^-----BEGIN EC PRIVATE KEY-----.*/, zap_key)
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assert_match(/.*-----END EC PRIVATE KEY-----$/, zap_key)
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shell_output("#{bin}/step certificate inspect --format json zap.crt > zap_crt.json")
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zap_crt_json = JSON.parse(File.read(testpath/"zap_crt.json"))
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assert_equal "CN=zap", zap_crt_json["subject_dn"]
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assert_equal "CN=baz", zap_crt_json["issuer_dn"]
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# Initialize a PKI and step-ca configuration, boot the CA, and create a
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# certificate using the API.
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(testpath/"password.txt").write("password")
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steppath = "#{testpath}/.step"
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Dir.mkdir(steppath) unless File.exist?(steppath)
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ENV["STEPPATH"] = steppath
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system "#{bin}/step", "ca", "init", "--address", "127.0.0.1:8081",
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"--dns", "127.0.0.1", "--password-file", "#{testpath}/password.txt",
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"--provisioner-password-file", "#{testpath}/password.txt", "--name",
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"homebrew-smallstep-test", "--provisioner", "brew"
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begin
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pid = fork do
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exec "#{bin}/step-ca", "--password-file", "#{testpath}/password.txt",
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"#{steppath}/config/ca.json"
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end
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sleep 2
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shell_output("#{bin}/step ca health > health_response.txt")
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assert_match(/^ok$/, File.read(testpath/"health_response.txt"))
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shell_output("#{bin}/step ca token --password-file #{testpath}/password.txt " \
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"homebrew-smallstep-leaf > token.txt")
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token = File.read(testpath/"token.txt")
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system "#{bin}/step", "ca", "certificate", "--token", token,
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"homebrew-smallstep-leaf", "brew.crt", "brew.key"
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assert_predicate testpath/"brew.crt", :exist?
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assert_predicate testpath/"brew.key", :exist?
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brew_crt = File.read(testpath/"brew.crt")
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assert_match(/^-----BEGIN CERTIFICATE-----.*/, brew_crt)
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assert_match(/.*-----END CERTIFICATE-----$/, brew_crt)
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brew_key = File.read(testpath/"brew.key")
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assert_match(/^-----BEGIN EC PRIVATE KEY-----.*/, brew_key)
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assert_match(/.*-----END EC PRIVATE KEY-----$/, brew_key)
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shell_output("#{bin}/step certificate inspect --format json brew.crt > brew_crt.json")
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brew_crt_json = JSON.parse(File.read(testpath/"brew_crt.json"))
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assert_equal "CN=homebrew-smallstep-leaf", brew_crt_json["subject_dn"]
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assert_equal "O=homebrew-smallstep-test, CN=homebrew-smallstep-test Intermediate CA", brew_crt_json["issuer_dn"]
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ensure
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Process.kill(9, pid)
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Process.wait(pid)
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end
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end
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end
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