ruby/test/openssl/test_pkey_rsa.rb

550 строки
19 KiB
Ruby

# frozen_string_literal: true
require_relative "utils"
if defined?(OpenSSL)
class OpenSSL::TestPKeyRSA < OpenSSL::PKeyTestCase
def test_no_private_exp
key = OpenSSL::PKey::RSA.new
rsa = Fixtures.pkey("rsa2048")
key.set_key(rsa.n, rsa.e, nil)
key.set_factors(rsa.p, rsa.q)
assert_raise(OpenSSL::PKey::RSAError){ key.private_encrypt("foo") }
assert_raise(OpenSSL::PKey::RSAError){ key.private_decrypt("foo") }
end if !openssl?(3, 0, 0) # Impossible state in OpenSSL 3.0
def test_private
# Generated by key size and public exponent
key = OpenSSL::PKey::RSA.new(512, 3)
assert(key.private?)
# Generated by DER
key2 = OpenSSL::PKey::RSA.new(key.to_der)
assert(key2.private?)
# public key
key3 = key.public_key
assert(!key3.private?)
# Generated by public key DER
key4 = OpenSSL::PKey::RSA.new(key3.to_der)
assert(!key4.private?)
rsa1024 = Fixtures.pkey("rsa1024")
if !openssl?(3, 0, 0)
key = OpenSSL::PKey::RSA.new
# Generated by RSA#set_key
key5 = OpenSSL::PKey::RSA.new
key5.set_key(rsa1024.n, rsa1024.e, rsa1024.d)
assert(key5.private?)
# Generated by RSA#set_key, without d
key6 = OpenSSL::PKey::RSA.new
key6.set_key(rsa1024.n, rsa1024.e, nil)
assert(!key6.private?)
end
end
def test_new
key = OpenSSL::PKey::RSA.new(512)
assert_equal 512, key.n.num_bits
assert_equal 65537, key.e
assert_not_nil key.d
# Specify public exponent
key2 = OpenSSL::PKey::RSA.new(512, 3)
assert_equal 512, key2.n.num_bits
assert_equal 3, key2.e
assert_not_nil key2.d
end
def test_s_generate
key1 = OpenSSL::PKey::RSA.generate(512)
assert_equal 512, key1.n.num_bits
assert_equal 65537, key1.e
# Specify public exponent
key2 = OpenSSL::PKey::RSA.generate(512, 3)
assert_equal 512, key2.n.num_bits
assert_equal 3, key2.e
assert_not_nil key2.d
end
def test_new_break
assert_nil(OpenSSL::PKey::RSA.new(1024) { break })
assert_raise(RuntimeError) do
OpenSSL::PKey::RSA.new(1024) { raise }
end
end
def test_sign_verify
rsa1024 = Fixtures.pkey("rsa1024")
data = "Sign me!"
signature = rsa1024.sign("SHA256", data)
assert_equal true, rsa1024.verify("SHA256", signature, data)
signature0 = (<<~'end;').unpack1("m")
oLCgbprPvfhM4pjFQiDTFeWI9Sk+Og7Nh9TmIZ/xSxf2CGXQrptlwo7NQ28+
WA6YQo8jPH4hSuyWIM4Gz4qRYiYRkl5TDMUYob94zm8Si1HxEiS9354tzvqS
zS8MLW2BtNPuTubMxTItHGTnOzo9sUg0LAHVFt8kHG2NfKAw/gQ=
end;
assert_equal true, rsa1024.verify("SHA256", signature0, data)
signature1 = signature0.succ
assert_equal false, rsa1024.verify("SHA256", signature1, data)
end
def test_sign_verify_options
key = Fixtures.pkey("rsa1024")
data = "Sign me!"
pssopts = {
"rsa_padding_mode" => "pss",
"rsa_pss_saltlen" => 20,
"rsa_mgf1_md" => "SHA1"
}
sig_pss = key.sign("SHA256", data, pssopts)
assert_equal 128, sig_pss.bytesize
assert_equal true, key.verify("SHA256", sig_pss, data, pssopts)
assert_equal true, key.verify_pss("SHA256", sig_pss, data,
salt_length: 20, mgf1_hash: "SHA1")
# Defaults to PKCS #1 v1.5 padding => verification failure
assert_equal false, key.verify("SHA256", sig_pss, data)
# option type check
assert_raise_with_message(TypeError, /expected Hash/) {
key.sign("SHA256", data, ["x"])
}
end
def test_sign_verify_raw
key = Fixtures.pkey("rsa-1")
data = "Sign me!"
hash = OpenSSL::Digest.digest("SHA256", data)
signature = key.sign_raw("SHA256", hash)
assert_equal true, key.verify_raw("SHA256", signature, hash)
assert_equal true, key.verify("SHA256", signature, data)
# Too long data
assert_raise(OpenSSL::PKey::PKeyError) {
key.sign_raw("SHA1", "x" * (key.n.num_bytes + 1))
}
# With options
pssopts = {
"rsa_padding_mode" => "pss",
"rsa_pss_saltlen" => 20,
"rsa_mgf1_md" => "SHA256"
}
sig_pss = key.sign_raw("SHA256", hash, pssopts)
assert_equal true, key.verify("SHA256", sig_pss, data, pssopts)
assert_equal true, key.verify_raw("SHA256", sig_pss, hash, pssopts)
end
def test_sign_verify_raw_legacy
key = Fixtures.pkey("rsa-1")
bits = key.n.num_bits
# Need right size for raw mode
plain0 = "x" * (bits/8)
cipher = key.private_encrypt(plain0, OpenSSL::PKey::RSA::NO_PADDING)
plain1 = key.public_decrypt(cipher, OpenSSL::PKey::RSA::NO_PADDING)
assert_equal(plain0, plain1)
# Need smaller size for pkcs1 mode
plain0 = "x" * (bits/8 - 11)
cipher1 = key.private_encrypt(plain0, OpenSSL::PKey::RSA::PKCS1_PADDING)
plain1 = key.public_decrypt(cipher1, OpenSSL::PKey::RSA::PKCS1_PADDING)
assert_equal(plain0, plain1)
cipherdef = key.private_encrypt(plain0) # PKCS1_PADDING is default
plain1 = key.public_decrypt(cipherdef)
assert_equal(plain0, plain1)
assert_equal(cipher1, cipherdef)
# Failure cases
assert_raise(ArgumentError){ key.private_encrypt() }
assert_raise(ArgumentError){ key.private_encrypt("hi", 1, nil) }
assert_raise(OpenSSL::PKey::RSAError){ key.private_encrypt(plain0, 666) }
end
def test_verify_empty_rsa
rsa = OpenSSL::PKey::RSA.new
assert_raise(OpenSSL::PKey::PKeyError, "[Bug #12783]") {
rsa.verify("SHA1", "a", "b")
}
end
def test_sign_verify_pss
key = Fixtures.pkey("rsa1024")
data = "Sign me!"
invalid_data = "Sign me?"
signature = key.sign_pss("SHA256", data, salt_length: 20, mgf1_hash: "SHA1")
assert_equal 128, signature.bytesize
assert_equal true,
key.verify_pss("SHA256", signature, data, salt_length: 20, mgf1_hash: "SHA1")
assert_equal true,
key.verify_pss("SHA256", signature, data, salt_length: :auto, mgf1_hash: "SHA1")
assert_equal false,
key.verify_pss("SHA256", signature, invalid_data, salt_length: 20, mgf1_hash: "SHA1")
signature = key.sign_pss("SHA256", data, salt_length: :digest, mgf1_hash: "SHA1")
assert_equal true,
key.verify_pss("SHA256", signature, data, salt_length: 32, mgf1_hash: "SHA1")
assert_equal true,
key.verify_pss("SHA256", signature, data, salt_length: :auto, mgf1_hash: "SHA1")
assert_equal false,
key.verify_pss("SHA256", signature, data, salt_length: 20, mgf1_hash: "SHA1")
signature = key.sign_pss("SHA256", data, salt_length: :max, mgf1_hash: "SHA1")
assert_equal true,
key.verify_pss("SHA256", signature, data, salt_length: 94, mgf1_hash: "SHA1")
assert_equal true,
key.verify_pss("SHA256", signature, data, salt_length: :auto, mgf1_hash: "SHA1")
assert_raise(OpenSSL::PKey::RSAError) {
key.sign_pss("SHA256", data, salt_length: 95, mgf1_hash: "SHA1")
}
end
def test_encrypt_decrypt
rsapriv = Fixtures.pkey("rsa-1")
rsapub = OpenSSL::PKey.read(rsapriv.public_to_der)
# Defaults to PKCS #1 v1.5
raw = "data"
enc = rsapub.encrypt(raw)
assert_equal raw, rsapriv.decrypt(enc)
# Invalid options
assert_raise(OpenSSL::PKey::PKeyError) {
rsapub.encrypt(raw, { "nonexistent" => "option" })
}
end
def test_encrypt_decrypt_legacy
rsapriv = Fixtures.pkey("rsa-1")
rsapub = OpenSSL::PKey.read(rsapriv.public_to_der)
# Defaults to PKCS #1 v1.5
raw = "data"
enc_legacy = rsapub.public_encrypt(raw)
assert_equal raw, rsapriv.decrypt(enc_legacy)
enc_new = rsapub.encrypt(raw)
assert_equal raw, rsapriv.private_decrypt(enc_new)
# OAEP with default parameters
raw = "data"
enc_legacy = rsapub.public_encrypt(raw, OpenSSL::PKey::RSA::PKCS1_OAEP_PADDING)
assert_equal raw, rsapriv.decrypt(enc_legacy, { "rsa_padding_mode" => "oaep" })
enc_new = rsapub.encrypt(raw, { "rsa_padding_mode" => "oaep" })
assert_equal raw, rsapriv.private_decrypt(enc_legacy, OpenSSL::PKey::RSA::PKCS1_OAEP_PADDING)
end
def test_export
rsa1024 = Fixtures.pkey("rsa1024")
pub = OpenSSL::PKey.read(rsa1024.public_to_der)
assert_not_equal rsa1024.export, pub.export
assert_equal rsa1024.public_to_pem, pub.export
# PKey is immutable in OpenSSL >= 3.0
if !openssl?(3, 0, 0)
key = OpenSSL::PKey::RSA.new
# key has only n, e and d
key.set_key(rsa1024.n, rsa1024.e, rsa1024.d)
assert_equal rsa1024.public_key.export, key.export
# key has only n, e, d, p and q
key.set_factors(rsa1024.p, rsa1024.q)
assert_equal rsa1024.public_key.export, key.export
# key has n, e, d, p, q, dmp1, dmq1 and iqmp
key.set_crt_params(rsa1024.dmp1, rsa1024.dmq1, rsa1024.iqmp)
assert_equal rsa1024.export, key.export
end
end
def test_to_der
rsa1024 = Fixtures.pkey("rsa1024")
pub = OpenSSL::PKey.read(rsa1024.public_to_der)
assert_not_equal rsa1024.to_der, pub.to_der
assert_equal rsa1024.public_to_der, pub.to_der
# PKey is immutable in OpenSSL >= 3.0
if !openssl?(3, 0, 0)
key = OpenSSL::PKey::RSA.new
# key has only n, e and d
key.set_key(rsa1024.n, rsa1024.e, rsa1024.d)
assert_equal rsa1024.public_key.to_der, key.to_der
# key has only n, e, d, p and q
key.set_factors(rsa1024.p, rsa1024.q)
assert_equal rsa1024.public_key.to_der, key.to_der
# key has n, e, d, p, q, dmp1, dmq1 and iqmp
key.set_crt_params(rsa1024.dmp1, rsa1024.dmq1, rsa1024.iqmp)
assert_equal rsa1024.to_der, key.to_der
end
end
def test_RSAPrivateKey
rsa1024 = Fixtures.pkey("rsa1024")
asn1 = OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::Integer(0),
OpenSSL::ASN1::Integer(rsa1024.n),
OpenSSL::ASN1::Integer(rsa1024.e),
OpenSSL::ASN1::Integer(rsa1024.d),
OpenSSL::ASN1::Integer(rsa1024.p),
OpenSSL::ASN1::Integer(rsa1024.q),
OpenSSL::ASN1::Integer(rsa1024.dmp1),
OpenSSL::ASN1::Integer(rsa1024.dmq1),
OpenSSL::ASN1::Integer(rsa1024.iqmp)
])
key = OpenSSL::PKey::RSA.new(asn1.to_der)
assert_predicate key, :private?
assert_same_rsa rsa1024, key
pem = <<~EOF
-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----
EOF
key = OpenSSL::PKey::RSA.new(pem)
assert_same_rsa rsa1024, key
assert_equal asn1.to_der, rsa1024.to_der
assert_equal pem, rsa1024.export
# Unknown PEM prepended
cert = issue_cert(OpenSSL::X509::Name.new([["CN", "nobody"]]), rsa1024, 1, [], nil, nil)
str = cert.to_text + cert.to_pem + rsa1024.to_pem
key = OpenSSL::PKey::RSA.new(str)
assert_same_rsa rsa1024, key
end
def test_RSAPrivateKey_encrypted
rsa1024 = Fixtures.pkey("rsa1024")
# key = abcdef
pem = <<~EOF
-----BEGIN RSA PRIVATE KEY-----
Proc-Type: 4,ENCRYPTED
DEK-Info: AES-128-CBC,733F5302505B34701FC41F5C0746E4C0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-----END RSA PRIVATE KEY-----
EOF
key = OpenSSL::PKey::RSA.new(pem, "abcdef")
assert_same_rsa rsa1024, key
key = OpenSSL::PKey::RSA.new(pem) { "abcdef" }
assert_same_rsa rsa1024, key
cipher = OpenSSL::Cipher.new("aes-128-cbc")
exported = rsa1024.to_pem(cipher, "abcdef\0\1")
assert_same_rsa rsa1024, OpenSSL::PKey::RSA.new(exported, "abcdef\0\1")
assert_raise(OpenSSL::PKey::RSAError) {
OpenSSL::PKey::RSA.new(exported, "abcdef")
}
end
def test_RSAPublicKey
rsa1024 = Fixtures.pkey("rsa1024")
rsa1024pub = OpenSSL::PKey::RSA.new(rsa1024.public_to_der)
asn1 = OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::Integer(rsa1024.n),
OpenSSL::ASN1::Integer(rsa1024.e)
])
key = OpenSSL::PKey::RSA.new(asn1.to_der)
assert_not_predicate key, :private?
assert_same_rsa rsa1024pub, key
pem = <<~EOF
-----BEGIN RSA PUBLIC KEY-----
MIGJAoGBAMvCxLDUQKc+1P4+Q6AeFwYDvWfALb+cvzlUEadGoPE6qNWHsLFoo8RF
geyTgE8KQTduu1OE9Zz2SMcRBDu5/1jWtsLPSVrI2ofLLBARUsWanVyki39DeB4u
/xkP2mKGjAokPIwOI3oCthSZlzO9bj3voxTf6XngTqUX8l8URTmHAgMBAAE=
-----END RSA PUBLIC KEY-----
EOF
key = OpenSSL::PKey::RSA.new(pem)
assert_same_rsa rsa1024pub, key
end
def test_PUBKEY
rsa1024 = Fixtures.pkey("rsa1024")
rsa1024pub = OpenSSL::PKey::RSA.new(rsa1024.public_to_der)
asn1 = OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::ObjectId("rsaEncryption"),
OpenSSL::ASN1::Null(nil)
]),
OpenSSL::ASN1::BitString(
OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::Integer(rsa1024.n),
OpenSSL::ASN1::Integer(rsa1024.e)
]).to_der
)
])
key = OpenSSL::PKey::RSA.new(asn1.to_der)
assert_not_predicate key, :private?
assert_same_rsa rsa1024pub, key
pem = <<~EOF
-----BEGIN PUBLIC KEY-----
MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQDLwsSw1ECnPtT+PkOgHhcGA71n
wC2/nL85VBGnRqDxOqjVh7CxaKPERYHsk4BPCkE3brtThPWc9kjHEQQ7uf9Y1rbC
z0layNqHyywQEVLFmp1cpIt/Q3geLv8ZD9pihowKJDyMDiN6ArYUmZczvW4976MU
3+l54E6lF/JfFEU5hwIDAQAB
-----END PUBLIC KEY-----
EOF
key = OpenSSL::PKey::RSA.new(pem)
assert_same_rsa rsa1024pub, key
assert_equal asn1.to_der, key.to_der
assert_equal pem, key.export
assert_equal asn1.to_der, rsa1024.public_to_der
assert_equal asn1.to_der, key.public_to_der
assert_equal pem, rsa1024.public_to_pem
assert_equal pem, key.public_to_pem
end
def test_pem_passwd
key = Fixtures.pkey("rsa1024")
pem3c = key.to_pem("aes-128-cbc", "key")
assert_match (/ENCRYPTED/), pem3c
assert_equal key.to_der, OpenSSL::PKey.read(pem3c, "key").to_der
assert_equal key.to_der, OpenSSL::PKey.read(pem3c) { "key" }.to_der
assert_raise(OpenSSL::PKey::PKeyError) {
OpenSSL::PKey.read(pem3c) { nil }
}
end
def test_private_encoding
rsa1024 = Fixtures.pkey("rsa1024")
asn1 = OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::Integer(0),
OpenSSL::ASN1::Sequence([
OpenSSL::ASN1::ObjectId("rsaEncryption"),
OpenSSL::ASN1::Null(nil)
]),
OpenSSL::ASN1::OctetString(rsa1024.to_der)
])
assert_equal asn1.to_der, rsa1024.private_to_der
assert_same_rsa rsa1024, OpenSSL::PKey.read(asn1.to_der)
pem = <<~EOF
-----BEGIN PRIVATE KEY-----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-----END PRIVATE KEY-----
EOF
assert_equal pem, rsa1024.private_to_pem
assert_same_rsa rsa1024, OpenSSL::PKey.read(pem)
end
def test_private_encoding_encrypted
rsa1024 = Fixtures.pkey("rsa1024")
encoded = rsa1024.private_to_der("aes-128-cbc", "abcdef")
asn1 = OpenSSL::ASN1.decode(encoded) # PKCS #8 EncryptedPrivateKeyInfo
assert_kind_of OpenSSL::ASN1::Sequence, asn1
assert_equal 2, asn1.value.size
assert_not_equal rsa1024.private_to_der, encoded
assert_same_rsa rsa1024, OpenSSL::PKey.read(encoded, "abcdef")
assert_same_rsa rsa1024, OpenSSL::PKey.read(encoded) { "abcdef" }
assert_raise(OpenSSL::PKey::PKeyError) { OpenSSL::PKey.read(encoded, "abcxyz") }
encoded = rsa1024.private_to_pem("aes-128-cbc", "abcdef")
assert_match (/BEGIN ENCRYPTED PRIVATE KEY/), encoded.lines[0]
assert_same_rsa rsa1024, OpenSSL::PKey.read(encoded, "abcdef")
# certtool --load-privkey=test/fixtures/pkey/rsa1024.pem --to-p8 --password=abcdef
pem = <<~EOF
-----BEGIN ENCRYPTED PRIVATE KEY-----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-----END ENCRYPTED PRIVATE KEY-----
EOF
assert_same_rsa rsa1024, OpenSSL::PKey.read(pem, "abcdef")
end
def test_dup
key = Fixtures.pkey("rsa1024")
key2 = key.dup
assert_equal key.params, key2.params
# PKey is immutable in OpenSSL >= 3.0
if !openssl?(3, 0, 0)
key2.set_key(key2.n, 3, key2.d)
assert_not_equal key.params, key2.params
end
end
def test_marshal
key = Fixtures.pkey("rsa2048")
deserialized = Marshal.load(Marshal.dump(key))
assert_equal key.to_der, deserialized.to_der
end
private
def assert_same_rsa(expected, key)
check_component(expected, key, [:n, :e, :d, :p, :q, :dmp1, :dmq1, :iqmp])
end
end
end