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ruby--ruby/test/openssl/test_pkey_dsa.rb
Hiroshi SHIBATA b99775b163
Import openssl-2.2.0 (#2693)
Import the master branch of ruby/openssl for preparing to release openssl-2.2.0
2020-02-16 15:21:29 +09:00

200 lines
6.7 KiB
Ruby

# frozen_string_literal: true
require_relative 'utils'
if defined?(OpenSSL) && defined?(OpenSSL::PKey::DSA)
class OpenSSL::TestPKeyDSA < OpenSSL::PKeyTestCase
def test_private
key = OpenSSL::PKey::DSA.new(256)
assert(key.private?)
key2 = OpenSSL::PKey::DSA.new(key.to_der)
assert(key2.private?)
key3 = key.public_key
assert(!key3.private?)
key4 = OpenSSL::PKey::DSA.new(key3.to_der)
assert(!key4.private?)
end
def test_new
key = OpenSSL::PKey::DSA.new 256
pem = key.public_key.to_pem
OpenSSL::PKey::DSA.new pem
if $0 == __FILE__
assert_nothing_raised {
key = OpenSSL::PKey::DSA.new 2048
}
end
end
def test_new_break
assert_nil(OpenSSL::PKey::DSA.new(512) { break })
assert_raise(RuntimeError) do
OpenSSL::PKey::DSA.new(512) { raise }
end
end
def test_sign_verify
dsa512 = Fixtures.pkey("dsa512")
data = "Sign me!"
if defined?(OpenSSL::Digest::DSS1)
signature = dsa512.sign(OpenSSL::Digest::DSS1.new, data)
assert_equal true, dsa512.verify(OpenSSL::Digest::DSS1.new, signature, data)
end
signature = dsa512.sign("SHA1", data)
assert_equal true, dsa512.verify("SHA1", signature, data)
signature0 = (<<~'end;').unpack("m")[0]
MCwCFH5h40plgU5Fh0Z4wvEEpz0eE9SnAhRPbkRB8ggsN/vsSEYMXvJwjGg/
6g==
end;
assert_equal true, dsa512.verify("SHA256", signature0, data)
signature1 = signature0.succ
assert_equal false, dsa512.verify("SHA256", signature1, data)
end
def test_sys_sign_verify
key = Fixtures.pkey("dsa256")
data = 'Sign me!'
digest = OpenSSL::Digest::SHA1.digest(data)
sig = key.syssign(digest)
assert(key.sysverify(digest, sig))
end
def test_DSAPrivateKey
# OpenSSL DSAPrivateKey format; similar to RSAPrivateKey
dsa512 = Fixtures.pkey("dsa512")
asn1 = OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::Integer(0),
OpenSSL::ASN1::Integer(dsa512.p),
OpenSSL::ASN1::Integer(dsa512.q),
OpenSSL::ASN1::Integer(dsa512.g),
OpenSSL::ASN1::Integer(dsa512.pub_key),
OpenSSL::ASN1::Integer(dsa512.priv_key)
])
key = OpenSSL::PKey::DSA.new(asn1.to_der)
assert_predicate key, :private?
assert_same_dsa dsa512, key
pem = <<~EOF
-----BEGIN DSA PRIVATE KEY-----
MIH4AgEAAkEA5lB4GvEwjrsMlGDqGsxrbqeFRh6o9OWt6FgTYiEEHaOYhkIxv0Ok
RZPDNwOG997mDjBnvDJ1i56OmS3MbTnovwIVAJgub/aDrSDB4DZGH7UyarcaGy6D
AkB9HdFw/3td8K4l1FZHv7TCZeJ3ZLb7dF3TWoGUP003RCqoji3/lHdKoVdTQNuR
S/m6DlCwhjRjiQ/lBRgCLCcaAkEAjN891JBjzpMj4bWgsACmMggFf57DS0Ti+5++
Q1VB8qkJN7rA7/2HrCR3gTsWNb1YhAsnFsoeRscC+LxXoXi9OAIUBG98h4tilg6S
55jreJD3Se3slps=
-----END DSA PRIVATE KEY-----
EOF
key = OpenSSL::PKey::DSA.new(pem)
assert_same_dsa dsa512, key
assert_equal asn1.to_der, dsa512.to_der
assert_equal pem, dsa512.export
end
def test_DSAPrivateKey_encrypted
# key = abcdef
dsa512 = Fixtures.pkey("dsa512")
pem = <<~EOF
-----BEGIN DSA PRIVATE KEY-----
Proc-Type: 4,ENCRYPTED
DEK-Info: AES-128-CBC,F8BB7BFC7EAB9118AC2E3DA16C8DB1D9
D2sIzsM9MLXBtlF4RW42u2GB9gX3HQ3prtVIjWPLaKBYoToRUiv8WKsjptfZuLSB
74ZPdMS7VITM+W1HIxo/tjS80348Cwc9ou8H/E6WGat8ZUk/igLOUEII+coQS6qw
QpuLMcCIavevX0gjdjEIkojBB81TYDofA1Bp1z1zDI/2Zhw822xapI79ZF7Rmywt
OSyWzFaGipgDpdFsGzvT6//z0jMr0AuJVcZ0VJ5lyPGQZAeVBlbYEI4T72cC5Cz7
XvLiaUtum6/sASD2PQqdDNpgx/WA6Vs1Po2kIUQIM5TIwyJI0GdykZcYm6xIK/ta
Wgx6c8K+qBAIVrilw3EWxw==
-----END DSA PRIVATE KEY-----
EOF
key = OpenSSL::PKey::DSA.new(pem, "abcdef")
assert_same_dsa dsa512, key
key = OpenSSL::PKey::DSA.new(pem) { "abcdef" }
assert_same_dsa dsa512, key
cipher = OpenSSL::Cipher.new("aes-128-cbc")
exported = dsa512.to_pem(cipher, "abcdef\0\1")
assert_same_dsa dsa512, OpenSSL::PKey::DSA.new(exported, "abcdef\0\1")
assert_raise(OpenSSL::PKey::DSAError) {
OpenSSL::PKey::DSA.new(exported, "abcdef")
}
end
def test_PUBKEY
dsa512 = Fixtures.pkey("dsa512")
asn1 = OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::ObjectId("DSA"),
OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::Integer(dsa512.p),
OpenSSL::ASN1::Integer(dsa512.q),
OpenSSL::ASN1::Integer(dsa512.g)
])
]),
OpenSSL::ASN1::BitString(
OpenSSL::ASN1::Integer(dsa512.pub_key).to_der
)
])
key = OpenSSL::PKey::DSA.new(asn1.to_der)
assert_not_predicate key, :private?
assert_same_dsa dup_public(dsa512), key
pem = <<~EOF
-----BEGIN PUBLIC KEY-----
MIHxMIGoBgcqhkjOOAQBMIGcAkEA5lB4GvEwjrsMlGDqGsxrbqeFRh6o9OWt6FgT
YiEEHaOYhkIxv0OkRZPDNwOG997mDjBnvDJ1i56OmS3MbTnovwIVAJgub/aDrSDB
4DZGH7UyarcaGy6DAkB9HdFw/3td8K4l1FZHv7TCZeJ3ZLb7dF3TWoGUP003RCqo
ji3/lHdKoVdTQNuRS/m6DlCwhjRjiQ/lBRgCLCcaA0QAAkEAjN891JBjzpMj4bWg
sACmMggFf57DS0Ti+5++Q1VB8qkJN7rA7/2HrCR3gTsWNb1YhAsnFsoeRscC+LxX
oXi9OA==
-----END PUBLIC KEY-----
EOF
key = OpenSSL::PKey::DSA.new(pem)
assert_same_dsa dup_public(dsa512), key
assert_equal asn1.to_der, dup_public(dsa512).to_der
assert_equal pem, dup_public(dsa512).export
end
def test_read_DSAPublicKey_pem
# TODO: where is the standard? PKey::DSA.new can read only PEM
p = 12260055936871293565827712385212529106400444521449663325576634579961635627321079536132296996623400607469624537382977152381984332395192110731059176842635699
q = 979494906553787301107832405790107343409973851677
g = 3731695366899846297271147240305742456317979984190506040697507048095553842519347835107669437969086119948785140453492839427038591924536131566350847469993845
y = 10505239074982761504240823422422813362721498896040719759460296306305851824586095328615844661273887569281276387605297130014564808567159023649684010036304695
pem = <<-EOF
-----BEGIN DSA PUBLIC KEY-----
MIHfAkEAyJSJ+g+P/knVcgDwwTzC7Pwg/pWs2EMd/r+lYlXhNfzg0biuXRul8VR4
VUC/phySExY0PdcqItkR/xYAYNMbNwJBAOoV57X0FxKO/PrNa/MkoWzkCKV/hzhE
p0zbFdsicw+hIjJ7S6Sd/FlDlo89HQZ2FuvWJ6wGLM1j00r39+F2qbMCFQCrkhIX
SG+is37hz1IaBeEudjB2HQJAR0AloavBvtsng8obsjLb7EKnB+pSeHr/BdIQ3VH7
fWLOqqkzFeRrYMDzUpl36XktY6Yq8EJYlW9pCMmBVNy/dQ==
-----END DSA PUBLIC KEY-----
EOF
key = OpenSSL::PKey::DSA.new(pem)
assert(key.public?)
assert(!key.private?)
assert_equal(p, key.p)
assert_equal(q, key.q)
assert_equal(g, key.g)
assert_equal(y, key.pub_key)
assert_equal(nil, key.priv_key)
end
def test_dup
key = OpenSSL::PKey::DSA.new(256)
key2 = key.dup
assert_equal key.params, key2.params
key2.set_pqg(key2.p + 1, key2.q, key2.g)
assert_not_equal key.params, key2.params
end
private
def assert_same_dsa(expected, key)
check_component(expected, key, [:p, :q, :g, :pub_key, :priv_key])
end
end
end