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Fix test_pkey_rsa.rb in FIPS.
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* test_sign_verify
  I created the signature text (`signature_encoded.txt`), that is used as a
  text to create the `signature0` in the `test_sign_verify` by the following
  steps with the `openssl` CLI on FIPS module.
  ```
  $ OPENSSL_DIR="${HOME}/.local/openssl-3.4.0-dev-fips-debug-3c6e114959"
  $ export OPENSSL_CONF="${OPENSSL_DIR}/ssl/openssl_fips.cnf"

  $ echo -n "Sign me!" > data.txt
  $ "${OPENSSL_DIR}/bin/openssl" dgst -sha256 -sign test/openssl/fixtures/pkey/rsa2048.pem data.txt > signature.txt
  $ cat signature.txt | base64 > signature_encoded.txt
  ```
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junaruga committed Sep 3, 2024
1 parent b0acc1a commit 091f3eb
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Showing 2 changed files with 153 additions and 95 deletions.
1 change: 1 addition & 0 deletions Rakefile
Original file line number Diff line number Diff line change
Expand Up @@ -32,6 +32,7 @@ Rake::TestTask.new(:test_fips_internal) do |t|
'test/openssl/test_pkey_dh.rb',
'test/openssl/test_pkey_dsa.rb',
'test/openssl/test_pkey_ec.rb',
'test/openssl/test_pkey_rsa.rb',
]
t.warning = true
end
Expand Down
247 changes: 152 additions & 95 deletions test/openssl/test_pkey_rsa.rb
Original file line number Diff line number Diff line change
Expand Up @@ -14,9 +14,7 @@ def test_no_private_exp
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?)
key = Fixtures.pkey("rsa2048")

# Generated by DER
key2 = OpenSSL::PKey::RSA.new(key.to_der)
Expand Down Expand Up @@ -46,63 +44,74 @@ def test_private
end

def test_new
key = OpenSSL::PKey::RSA.new(512)
assert_equal 512, key.n.num_bits
key = OpenSSL::PKey::RSA.new(2048)
assert_equal 2048, key.n.num_bits
assert_equal 65537, key.e
assert_not_nil key.d
assert(key.private?)
end

def test_new_public_exponent
# At least 2024-bits RSA key are required in FIPS.
omit_on_fips

# 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
key = OpenSSL::PKey::RSA.new(512, 3)
assert_equal 512, key.n.num_bits
assert_equal 3, key.e
end

def test_s_generate
key1 = OpenSSL::PKey::RSA.generate(512)
assert_equal 512, key1.n.num_bits
key1 = OpenSSL::PKey::RSA.generate(2048)
assert_equal 2048, key1.n.num_bits
assert_equal 65537, key1.e
end

def test_s_generate_public_exponent
# At least 2024-bits RSA key are required in FIPS.
omit_on_fips

# 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
key = OpenSSL::PKey::RSA.generate(512, 3)
assert_equal 512, key.n.num_bits
assert_equal 3, key.e
end

def test_new_break
assert_nil(OpenSSL::PKey::RSA.new(1024) { break })
assert_nil(OpenSSL::PKey::RSA.new(2048) { break })
assert_raise(RuntimeError) do
OpenSSL::PKey::RSA.new(1024) { raise }
OpenSSL::PKey::RSA.new(2048) { raise }
end
end

def test_sign_verify
rsa1024 = Fixtures.pkey("rsa1024")
rsa = Fixtures.pkey("rsa2048")
data = "Sign me!"
signature = rsa1024.sign("SHA256", data)
assert_equal true, rsa1024.verify("SHA256", signature, data)
signature = rsa.sign("SHA256", data)
assert_equal true, rsa.verify("SHA256", signature, data)

signature0 = (<<~'end;').unpack1("m")
oLCgbprPvfhM4pjFQiDTFeWI9Sk+Og7Nh9TmIZ/xSxf2CGXQrptlwo7NQ28+
WA6YQo8jPH4hSuyWIM4Gz4qRYiYRkl5TDMUYob94zm8Si1HxEiS9354tzvqS
zS8MLW2BtNPuTubMxTItHGTnOzo9sUg0LAHVFt8kHG2NfKAw/gQ=
ooy49i8aeFtkDYUU0RPDsEugGiNw4lZxpbQPnIwtdftEkka945IqKZ/MY3YSw7wKsvBZeaTy8GqL
lSWLThsRFDV+UUS9zUBbQ9ygNIT8OjdV+tNL63ZpKGprczSnw4F05MQIpajNRud/8jiI9rf+Wysi
WwXecjMl2FlXlLJHY4PFQZU5TiametB4VCQRMcjLo1uf26u/yRpiGaYyqn5vxs0SqNtUDM1UL6x4
NHCAdqLjuFRQPjYp1vGLD3eSl4061pS8x1NVap3YGbYfGUyzZO4VfwFwf1jPdhp/OX/uZw4dGB2H
gSK+q1JiDFwEE6yym5tdKovL1g1NhFYHF6gkZg==
end;
assert_equal true, rsa1024.verify("SHA256", signature0, data)
assert_equal true, rsa.verify("SHA256", signature0, data)
signature1 = signature0.succ
assert_equal false, rsa1024.verify("SHA256", signature1, data)
assert_equal false, rsa.verify("SHA256", signature1, data)
end

def test_sign_verify_options
key = Fixtures.pkey("rsa1024")
key = Fixtures.pkey("rsa2048")
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 256, 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")
Expand Down Expand Up @@ -175,12 +184,12 @@ def test_verify_empty_rsa
end

def test_sign_verify_pss
key = Fixtures.pkey("rsa1024")
key = Fixtures.pkey("rsa2048")
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 256, signature.bytesize
assert_equal true,
key.verify_pss("SHA256", signature, data, salt_length: 20, mgf1_hash: "SHA1")
assert_equal true,
Expand All @@ -196,14 +205,26 @@ def test_sign_verify_pss
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")
# The sign_pss with `salt_length: :max` raises the "invalid salt length"
# error in FIPS. We need to skip the tests in FIPS.
# According to FIPS 186-5 section 5.4, the salt length shall be between zero
# and the output block length of the digest function (inclusive).
#
# FIPS 186-5 section 5.4 PKCS #1
# https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-5.pdf
unless OpenSSL.fips_mode
signature = key.sign_pss("SHA256", data, salt_length: :max, mgf1_hash: "SHA1")
# Should verify on the following salt_length (sLen).
# sLen <= emLen (octat) - 2 - hLen (octet) = 2048 / 8 - 2 - 256 / 8 = 222
# https://datatracker.ietf.org/doc/html/rfc8017#section-9.1.1
assert_equal true,
key.verify_pss("SHA256", signature, data, salt_length: 222, mgf1_hash: "SHA1")
assert_equal true,
key.verify_pss("SHA256", signature, data, salt_length: :auto, mgf1_hash: "SHA1")
end

assert_raise(OpenSSL::PKey::RSAError) {
key.sign_pss("SHA256", data, salt_length: 95, mgf1_hash: "SHA1")
key.sign_pss("SHA256", data, salt_length: 223, mgf1_hash: "SHA1")
}
end

Expand All @@ -213,8 +234,13 @@ def test_encrypt_decrypt

# Defaults to PKCS #1 v1.5
raw = "data"
enc = rsapub.encrypt(raw)
assert_equal raw, rsapriv.decrypt(enc)
# According to the NIST SP 800-131A Rev. 2 section 6, PKCS#1 v1.5 padding is
# not permitted for key agreement and key transport using RSA in FIPS.
# https://nvlpubs.nist.gov/nistpubs/SpecialPublications/NIST.SP.800-131Ar2.pdf
unless OpenSSL.fips_mode
enc = rsapub.encrypt(raw)
assert_equal raw, rsapriv.decrypt(enc)
end

# Invalid options
assert_raise(OpenSSL::PKey::PKeyError) {
Expand All @@ -227,11 +253,13 @@ def test_encrypt_decrypt_legacy
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)
unless OpenSSL.fips_mode
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)
end

# OAEP with default parameters
raw = "data"
Expand Down Expand Up @@ -292,53 +320,67 @@ def test_to_der
end

def test_RSAPrivateKey
rsa1024 = Fixtures.pkey("rsa1024")
rsa = Fixtures.pkey("rsa2048")
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)
OpenSSL::ASN1::Integer(rsa.n),
OpenSSL::ASN1::Integer(rsa.e),
OpenSSL::ASN1::Integer(rsa.d),
OpenSSL::ASN1::Integer(rsa.p),
OpenSSL::ASN1::Integer(rsa.q),
OpenSSL::ASN1::Integer(rsa.dmp1),
OpenSSL::ASN1::Integer(rsa.dmq1),
OpenSSL::ASN1::Integer(rsa.iqmp)
])
key = OpenSSL::PKey::RSA.new(asn1.to_der)
assert_predicate key, :private?
assert_same_rsa rsa1024, key
assert_same_rsa rsa, key

pem = <<~EOF
-----BEGIN RSA PRIVATE KEY-----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MIIEpAIBAAKCAQEAuV9ht9J7k4NBs38jOXvvTKY9gW8nLICSno5EETR1cuF7i4pN
s9I1QJGAFAX0BEO4KbzXmuOvfCpD3CU+Slp1enenfzq/t/e/1IRW0wkJUJUFQign
4CtrkJL+P07yx18UjyPlBXb81ApEmAB5mrJVSrWmqbjs07JbuS4QQGGXLc+Su96D
kYKmSNVjBiLxVVSpyZfAY3hD37d60uG+X8xdW5v68JkRFIhdGlb6JL8fllf/A/bl
NwdJOhVr9mESHhwGjwfSeTDPfd8ZLE027E5lyAVX9KZYcU00mOX+fdxOSnGqS/8J
DRh0EPHDL15RcJjV2J6vZjPb0rOYGDoMcH+94wIDAQABAoIBAAzsamqfYQAqwXTb
I0CJtGg6msUgU7HVkOM+9d3hM2L791oGHV6xBAdpXW2H8LgvZHJ8eOeSghR8+dgq
PIqAffo4x1Oma+FOg3A0fb0evyiACyrOk+EcBdbBeLo/LcvahBtqnDfiUMQTpy6V
seSoFCwuN91TSCeGIsDpRjbG1vxZgtx+uI+oH5+ytqJOmfCksRDCkMglGkzyfcl0
Xc5CUhIJ0my53xijEUQl19rtWdMnNnnkdbG8PT3LZlOta5Do86BElzUYka0C6dUc
VsBDQ0Nup0P6rEQgy7tephHoRlUGTYamsajGJaAo1F3IQVIrRSuagi7+YpSpCqsW
wORqorkCgYEA7RdX6MDVrbw7LePnhyuaqTiMK+055/R1TqhB1JvvxJ1CXk2rDL6G
0TLHQ7oGofd5LYiemg4ZVtWdJe43BPZlVgT6lvL/iGo8JnrncB9Da6L7nrq/+Rvj
XGjf1qODCK+LmreZWEsaLPURIoR/Ewwxb9J2zd0CaMjeTwafJo1CZvcCgYEAyCgb
aqoWvUecX8VvARfuA593Lsi50t4MEArnOXXcd1RnXoZWhbx5rgO8/ATKfXr0BK/n
h2GF9PfKzHFm/4V6e82OL7gu/kLy2u9bXN74vOvWFL5NOrOKPM7Kg+9I131kNYOw
Ivnr/VtHE5s0dY7JChYWE1F3vArrOw3T00a4CXUCgYEA0SqY+dS2LvIzW4cHCe9k
IQqsT0yYm5TFsUEr4sA3xcPfe4cV8sZb9k/QEGYb1+SWWZ+AHPV3UW5fl8kTbSNb
v4ng8i8rVVQ0ANbJO9e5CUrepein2MPL0AkOATR8M7t7dGGpvYV0cFk8ZrFx0oId
U0PgYDotF/iueBWlbsOM430CgYEAqYI95dFyPI5/AiSkY5queeb8+mQH62sdcCCr
vd/w/CZA/K5sbAo4SoTj8dLk4evU6HtIa0DOP63y071eaxvRpTNqLUOgmLh+D6gS
Cc7TfLuFrD+WDBatBd5jZ+SoHccVrLR/4L8jeodo5FPW05A+9gnKXEXsTxY4LOUC
9bS4e1kCgYAqVXZh63JsMwoaxCYmQ66eJojKa47VNrOeIZDZvd2BPVf30glBOT41
gBoDG3WMPZoQj9pb7uMcrnvs4APj2FIhMU8U15LcPAj59cD6S6rWnAxO8NFK7HQG
4Jxg3JNNf8ErQoCHb1B3oVdXJkmbJkARoDpBKmTCgKtP8ADYLmVPQw==
-----END RSA PRIVATE KEY-----
EOF
key = OpenSSL::PKey::RSA.new(pem)
assert_same_rsa rsa1024, key
assert_same_rsa rsa, key

assert_equal asn1.to_der, rsa1024.to_der
assert_equal pem, rsa1024.export
assert_equal asn1.to_der, rsa.to_der
assert_equal pem, rsa.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
cert = issue_cert(OpenSSL::X509::Name.new([["CN", "nobody"]]), rsa, 1, [], nil, nil)
str = cert.to_text + cert.to_pem + rsa.to_pem
key = OpenSSL::PKey::RSA.new(str)
assert_same_rsa rsa1024, key
assert_same_rsa rsa, key
end

def test_RSAPrivateKey_encrypted
omit_on_fips

rsa1024 = Fixtures.pkey("rsa1024")
# key = abcdef
pem = <<~EOF
Expand Down Expand Up @@ -438,6 +480,8 @@ def test_PUBKEY
end

def test_pem_passwd
omit_on_fips

key = Fixtures.pkey("rsa1024")
pem3c = key.to_pem("aes-128-cbc", "key")
assert_match (/ENCRYPTED/), pem3c
Expand Down Expand Up @@ -484,41 +528,54 @@ def test_private_encoding
end

def test_private_encoding_encrypted
rsa1024 = Fixtures.pkey("rsa1024")
encoded = rsa1024.private_to_der("aes-128-cbc", "abcdef")
rsa = Fixtures.pkey("rsa2048")
encoded = rsa.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_not_equal rsa.private_to_der, encoded
assert_same_rsa rsa, OpenSSL::PKey.read(encoded, "abcdef")
assert_same_rsa rsa, OpenSSL::PKey.read(encoded) { "abcdef" }
assert_raise(OpenSSL::PKey::PKeyError) { OpenSSL::PKey.read(encoded, "abcxyz") }

encoded = rsa1024.private_to_pem("aes-128-cbc", "abcdef")
encoded = rsa.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")
assert_same_rsa rsa, OpenSSL::PKey.read(encoded, "abcdef")

# certtool --load-privkey=test/fixtures/pkey/rsa1024.pem --to-p8 --password=abcdef
# certtool --load-privkey=test/openssl/fixtures/pkey/rsa2048.pem --to-p8 --password=abcdef
pem = <<~EOF
-----BEGIN ENCRYPTED PRIVATE KEY-----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MIIFOTBjBgkqhkiG9w0BBQ0wVjA1BgkqhkiG9w0BBQwwKAQSsTIsinrhNMr4owUz
cwYGgB0lAgMJJ8ACARAwCgYIKoZIhvcNAgkwHQYJYIZIAWUDBAECBBDtDYqmQOLV
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71TCOEKIblZS11L1YhIni9Af8pOuHJBWwezP2zN2nPwV6OhgL7Jlax7ICQOPC6L/
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JkNQ0dewq4uRJXbGyQgfh5I5ETpqDhSt2JfBwAoze6cx3DPC711PUamxyWMiejs+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-----END ENCRYPTED PRIVATE KEY-----
EOF
assert_same_rsa rsa1024, OpenSSL::PKey.read(pem, "abcdef")
assert_same_rsa rsa, OpenSSL::PKey.read(pem, "abcdef")
end

def test_dup
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