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ruby--ruby/test/openssl/test_pkey_ec.rb

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# frozen_string_literal: false
require_relative 'utils'
if defined?(OpenSSL::TestUtils) && defined?(OpenSSL::PKey::EC)
class OpenSSL::TestEC < OpenSSL::TestCase
def setup
@data1 = 'foo'
@data2 = 'bar' * 1000 # data too long for DSA sig
@groups = []
@keys = []
OpenSSL::PKey::EC.builtin_curves.each do |curve, comment|
next if curve.start_with?("Oakley") # Oakley curves are not suitable for ECDSA
group = OpenSSL::PKey::EC::Group.new(curve)
key = OpenSSL::PKey::EC.new(group)
key.generate_key
@groups << group
@keys << key
end
end
def compare_keys(k1, k2)
assert_equal(k1.to_pem, k2.to_pem)
end
def test_builtin_curves
assert(!OpenSSL::PKey::EC.builtin_curves.empty?)
end
def test_curve_names
@groups.each_with_index do |group, idx|
key = @keys[idx]
assert_equal(group.curve_name, key.group.curve_name)
end
end
def test_check_key
for key in @keys
assert_equal(true, key.check_key)
assert_equal(true, key.private?)
assert_equal(true, key.public?)
key2 = OpenSSL::PKey::EC.new(key.group)
assert_equal(false, key2.private?)
assert_equal(false, key2.public?)
key2.public_key = key.public_key
assert_equal(false, key2.private?)
assert_equal(true, key2.public?)
key2.private_key = key.private_key
assert_equal(true, key2.private?)
assert_equal(true, key2.public?)
assert_equal(true, key2.check_key)
key2.private_key += 1
assert_raise(OpenSSL::PKey::ECError) { key2.check_key }
end
end
def test_group_encoding
for group in @groups
for meth in [:to_der, :to_pem]
txt = group.send(meth)
gr = OpenSSL::PKey::EC::Group.new(txt)
assert_equal(txt, gr.send(meth))
assert_equal(group.generator.to_bn, gr.generator.to_bn)
assert_equal(group.cofactor, gr.cofactor)
assert_equal(group.order, gr.order)
assert_equal(group.seed, gr.seed)
assert_equal(group.degree, gr.degree)
end
end
end
def test_key_encoding
for key in @keys
group = key.group
for meth in [:to_der, :to_pem]
txt = key.send(meth)
assert_equal(txt, OpenSSL::PKey::EC.new(txt).send(meth))
end
bn = key.public_key.to_bn
assert_equal(bn, OpenSSL::PKey::EC::Point.new(group, bn).to_bn)
end
end
def test_set_keys
for key in @keys
k = OpenSSL::PKey::EC.new
k.group = key.group
k.private_key = key.private_key
k.public_key = key.public_key
compare_keys(key, k)
end
end
def test_dsa_sign_verify
for key in @keys
sig = key.dsa_sign_asn1(@data1)
assert(key.dsa_verify_asn1(@data1, sig))
end
end
def test_dsa_sign_asn1_FIPS186_3
for key in @keys
size = key.group.order.num_bits / 8 + 1
dgst = (1..size).to_a.pack('C*')
begin
sig = key.dsa_sign_asn1(dgst)
# dgst is auto-truncated according to FIPS186-3 after openssl-0.9.8m
assert(key.dsa_verify_asn1(dgst + "garbage", sig))
rescue OpenSSL::PKey::ECError => e
# just an exception for longer dgst before openssl-0.9.8m
assert_equal('ECDSA_sign: data too large for key size', e.message)
# no need to do following tests
return
end
end
end
def test_dh_compute_key
for key in @keys
k = OpenSSL::PKey::EC.new(key.group)
k.generate_key
puba = key.public_key
pubb = k.public_key
a = key.dh_compute_key(pubb)
b = k.dh_compute_key(puba)
assert_equal(a, b)
end
end
def test_read_private_key_der
ec = OpenSSL::TestUtils::TEST_KEY_EC_P256V1
der = ec.to_der
ec2 = OpenSSL::PKey.read(der)
assert(ec2.private_key?)
assert_equal(der, ec2.to_der)
end
def test_read_private_key_pem
ec = OpenSSL::TestUtils::TEST_KEY_EC_P256V1
pem = ec.to_pem
ec2 = OpenSSL::PKey.read(pem)
assert(ec2.private_key?)
assert_equal(pem, ec2.to_pem)
end
def test_read_public_key_der
ec = OpenSSL::TestUtils::TEST_KEY_EC_P256V1
ec2 = OpenSSL::PKey::EC.new(ec.group)
ec2.public_key = ec.public_key
der = ec2.to_der
ec3 = OpenSSL::PKey.read(der)
assert(!ec3.private_key?)
assert_equal(der, ec3.to_der)
end
def test_read_public_key_pem
ec = OpenSSL::TestUtils::TEST_KEY_EC_P256V1
ec2 = OpenSSL::PKey::EC.new(ec.group)
ec2.public_key = ec.public_key
pem = ec2.to_pem
ec3 = OpenSSL::PKey.read(pem)
assert(!ec3.private_key?)
assert_equal(pem, ec3.to_pem)
end
def test_read_private_key_pem_pw
ec = OpenSSL::TestUtils::TEST_KEY_EC_P256V1
pem = ec.to_pem(OpenSSL::Cipher.new('AES-128-CBC'), 'secret')
#callback form for password
ec2 = OpenSSL::PKey.read(pem) do
'secret'
end
assert(ec2.private_key?)
# pass password directly
ec2 = OpenSSL::PKey.read(pem, 'secret')
assert(ec2.private_key?)
#omit pem equality check, will be different due to cipher iv
end
def test_export_password_length
key = OpenSSL::TestUtils::TEST_KEY_EC_P256V1
assert_raise(OpenSSL::OpenSSLError) do
key.export(OpenSSL::Cipher.new('AES-128-CBC'), 'sec')
end
pem = key.export(OpenSSL::Cipher.new('AES-128-CBC'), 'secr')
assert(pem)
end
def test_export_password_funny
key = OpenSSL::TestUtils::TEST_KEY_EC_P256V1
pem = key.export(OpenSSL::Cipher.new('AES-128-CBC'), "pass\0wd")
assert_raise(ArgumentError) do
OpenSSL::PKey.read(pem, "pass")
end
key2 = OpenSSL::PKey.read(pem, "pass\0wd")
assert(key2.private_key?)
key3 = OpenSSL::PKey::EC.new(pem, "pass\0wd")
assert(key3.private_key?)
end
def test_ec_point_mul
begin
# y^2 = x^3 + 2x + 2 over F_17
# generator is (5, 1)
group = OpenSSL::PKey::EC::Group.new(:GFp, 17, 2, 2)
gen = OpenSSL::PKey::EC::Point.new(group, OpenSSL::BN.new("040501", 16))
group.set_generator(gen, 0, 0)
# 3 * (6, 3) = (16, 13)
point_a = OpenSSL::PKey::EC::Point.new(group, OpenSSL::BN.new("040603", 16))
result_a1 = point_a.mul(3.to_bn)
assert_equal("04100D", result_a1.to_bn.to_s(16))
# 3 * (6, 3) + 3 * (5, 1) = (7, 6)
result_a2 = point_a.mul(3.to_bn, 3.to_bn)
assert_equal("040706", result_a2.to_bn.to_s(16))
# 3 * point_a = 3 * (6, 3) = (16, 13)
result_b1 = point_a.mul([3.to_bn], [])
assert_equal("04100D", result_b1.to_bn.to_s(16))
# 3 * point_a + 2 * point_a = 3 * (6, 3) + 2 * (6, 3) = (7, 11)
result_b1 = point_a.mul([3.to_bn, 2.to_bn], [point_a])
assert_equal("04070B", result_b1.to_bn.to_s(16))
# 3 * point_a + 5 * point_a.group.generator = 3 * (6, 3) + 5 * (5, 1) = (13, 10)
result_b1 = point_a.mul([3.to_bn], [], 5)
assert_equal("040D0A", result_b1.to_bn.to_s(16))
rescue OpenSSL::PKey::EC::Group::Error
# CentOS patches OpenSSL to reject curves defined over Fp where p < 256 bits
raise if $!.message !~ /unsupported field/
end
p256_key = OpenSSL::TestUtils::TEST_KEY_EC_P256V1
p256_g = p256_key.group
assert_equal(p256_key.public_key, p256_g.generator.mul(p256_key.private_key))
# invalid argument
point = p256_key.public_key
assert_raise(TypeError) { point.mul(nil) }
assert_raise(ArgumentError) { point.mul([1.to_bn], [point]) }
assert_raise(TypeError) { point.mul([1.to_bn], nil) }
assert_raise(TypeError) { point.mul([nil], []) }
end
# test Group: asn1_flag, point_conversion
end
end