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|
# frozen_string_literal: true
require_relative "utils"
if defined?(OpenSSL)
class OpenSSL::TestX509Store < OpenSSL::TestCase
def test_store_new
# v2.3.0 emits explicit warning
assert_warning(/new does not take any arguments/) {
OpenSSL::X509::Store.new(123)
}
end
def test_add_file_path
ca_exts = [
["basicConstraints", "CA:TRUE", true],
["keyUsage", "cRLSign,keyCertSign", true],
]
cert1_subj = OpenSSL::X509::Name.parse_rfc2253("CN=Cert 1")
cert1_key = Fixtures.pkey("rsa-1")
cert1 = issue_cert(cert1_subj, cert1_key, 1, ca_exts, nil, nil)
cert2_subj = OpenSSL::X509::Name.parse_rfc2253("CN=Cert 2")
cert2_key = Fixtures.pkey("rsa-2")
cert2 = issue_cert(cert2_subj, cert2_key, 1, ca_exts, nil, nil)
# X509::Store#add_file reads concatenated PEM file
tmpfile = Tempfile.open { |f| f << cert1.to_pem << cert2.to_pem; f }
store = OpenSSL::X509::Store.new
assert_equal false, store.verify(cert1)
assert_equal false, store.verify(cert2)
store.add_file(tmpfile.path)
assert_equal true, store.verify(cert1)
assert_equal true, store.verify(cert2)
# X509::Store#add_path
Dir.mktmpdir do |dir|
hash1 = "%08x.%d" % [cert1_subj.hash, 0]
File.write(File.join(dir, hash1), cert1.to_pem)
store = OpenSSL::X509::Store.new
store.add_path(dir)
assert_equal true, store.verify(cert1)
assert_equal false, store.verify(cert2)
end
# OpenSSL < 1.1.1 leaks an error on a duplicate certificate
assert_nothing_raised { store.add_file(tmpfile.path) }
assert_equal [], OpenSSL.errors
# Non-String is given
assert_raise(TypeError) { store.add_file(nil) }
ensure
tmpfile and tmpfile.close!
end
def test_verify_simple
ca_exts = [
["basicConstraints", "CA:TRUE", true],
["keyUsage", "cRLSign,keyCertSign", true],
]
ca1 = OpenSSL::X509::Name.parse_rfc2253("CN=Root CA")
ca1_key = Fixtures.pkey("rsa-1")
ca1_cert = issue_cert(ca1, ca1_key, 1, ca_exts, nil, nil)
ca2 = OpenSSL::X509::Name.parse_rfc2253("CN=Intermediate CA")
ca2_key = Fixtures.pkey("rsa-2")
ca2_cert = issue_cert(ca2, ca2_key, 2, ca_exts, ca1_cert, ca1_key)
ee_exts = [
["keyUsage", "keyEncipherment,digitalSignature", true],
]
ee1 = OpenSSL::X509::Name.parse_rfc2253("CN=EE 1")
ee1_key = Fixtures.pkey("rsa-3")
ee1_cert = issue_cert(ee1, ee1_key, 10, ee_exts, ca2_cert, ca2_key)
# Nothing trusted
store = OpenSSL::X509::Store.new
assert_equal(false, store.verify(ee1_cert, [ca2_cert, ca1_cert]))
assert_equal(OpenSSL::X509::V_ERR_SELF_SIGNED_CERT_IN_CHAIN, store.error)
assert_match(/self.signed/i, store.error_string)
# CA1 trusted, CA2 missing
store = OpenSSL::X509::Store.new
store.add_cert(ca1_cert)
assert_equal(false, store.verify(ee1_cert))
assert_equal(OpenSSL::X509::V_ERR_UNABLE_TO_GET_ISSUER_CERT_LOCALLY, store.error)
# CA1 trusted, CA2 supplied
store = OpenSSL::X509::Store.new
store.add_cert(ca1_cert)
assert_equal(true, store.verify(ee1_cert, [ca2_cert]))
assert_match(/ok/i, store.error_string)
assert_equal(OpenSSL::X509::V_OK, store.error)
assert_equal([ee1_cert, ca2_cert, ca1_cert], store.chain)
end
def test_verify_callback
ca_exts = [
["basicConstraints", "CA:TRUE", true],
["keyUsage", "cRLSign,keyCertSign", true],
]
ca1 = OpenSSL::X509::Name.parse_rfc2253("CN=Root CA")
ca1_key = Fixtures.pkey("rsa-1")
ca1_cert = issue_cert(ca1, ca1_key, 1, ca_exts, nil, nil)
ca2 = OpenSSL::X509::Name.parse_rfc2253("CN=Intermediate CA")
ca2_key = Fixtures.pkey("rsa-2")
ca2_cert = issue_cert(ca2, ca2_key, 2, ca_exts, ca1_cert, ca1_key)
ee_exts = [
["keyUsage", "keyEncipherment,digitalSignature", true],
]
ee1 = OpenSSL::X509::Name.parse_rfc2253("CN=EE 1")
ee1_key = Fixtures.pkey("rsa-3")
ee1_cert = issue_cert(ee1, ee1_key, 10, ee_exts, ca2_cert, ca2_key)
# verify_callback on X509::Store is called with proper arguments
cb_calls = []
store = OpenSSL::X509::Store.new
store.verify_callback = -> (preverify_ok, sctx) {
cb_calls << [preverify_ok, sctx.current_cert]
preverify_ok
}
store.add_cert(ca1_cert)
assert_equal(true, store.verify(ee1_cert, [ca2_cert]))
assert_include([2, 3, 4, 5], cb_calls.size)
cb_calls.each do |pre_ok, cert|
assert_equal(true, pre_ok)
assert_include([ca1_cert, ca2_cert, ee1_cert], cert)
end
# verify_callback can change verification result
store = OpenSSL::X509::Store.new
store.verify_callback = -> (preverify_ok, sctx) {
next preverify_ok if sctx.current_cert != ee1_cert
sctx.error = OpenSSL::X509::V_ERR_APPLICATION_VERIFICATION
false
}
store.add_cert(ca1_cert)
assert_equal(false, store.verify(ee1_cert, [ca2_cert]))
assert_equal(OpenSSL::X509::V_ERR_APPLICATION_VERIFICATION, store.error)
# Exception raised by verify_callback is currently suppressed, and is
# treated as a non-truthy return (with warning)
store = OpenSSL::X509::Store.new
store.verify_callback = -> (preverify_ok, sctx) {
raise "suppressed"
}
store.add_cert(ca1_cert)
assert_warning(/exception in verify_callback/) {
assert_equal(false, store.verify(ee1_cert, [ca2_cert]))
}
# The block given to X509::Store#verify replaces it
called = nil
store = OpenSSL::X509::Store.new
store.verify_callback = -> (preverify_ok, sctx) { called = :store; preverify_ok }
store.add_cert(ca1_cert)
blk = proc { |preverify_ok, sctx| called = :block; preverify_ok }
assert_equal(true, store.verify(ee1_cert, [ca2_cert], &blk))
assert_equal(:block, called)
end
def test_verify_purpose
ca_exts = [
["basicConstraints", "CA:TRUE", true],
["keyUsage", "cRLSign,keyCertSign", true],
]
ca1 = OpenSSL::X509::Name.parse_rfc2253("CN=Root CA")
ca1_key = Fixtures.pkey("rsa-1")
ca1_cert = issue_cert(ca1, ca1_key, 1, ca_exts, nil, nil)
ee_exts = [
["keyUsage", "keyEncipherment,digitalSignature", true],
]
ee1 = OpenSSL::X509::Name.parse_rfc2253("CN=EE 1")
ee1_key = Fixtures.pkey("rsa-3")
ee1_cert = issue_cert(ee1, ee1_key, 10, ee_exts, ca1_cert, ca1_key)
# Purpose not set
store = OpenSSL::X509::Store.new
store.add_cert(ca1_cert)
assert_equal(true, store.verify(ca1_cert))
assert_equal(true, store.verify(ee1_cert))
# Purpose set to X509::PURPOSE_SSL_CLIENT; keyUsage is checked
store = OpenSSL::X509::Store.new
store.purpose = OpenSSL::X509::PURPOSE_CRL_SIGN
store.add_cert(ca1_cert)
assert_equal(true, store.verify(ca1_cert))
assert_equal(false, store.verify(ee1_cert))
end
def test_verify_validity_period
# Creating test certificates with validity periods:
#
# now-5000 now-1000 now+1000 now+5000
# CA1:|---------------------------------------------------------------|
# EE1:|---------------------------------------------------------------|
# EE2:|-------------------------|
# EE3: |-------------------------|
now = Time.now
ca_exts = [
["basicConstraints", "CA:TRUE", true],
["keyUsage", "cRLSign,keyCertSign", true],
]
ca1 = OpenSSL::X509::Name.parse_rfc2253("CN=Root CA")
ca1_key = Fixtures.pkey("rsa-1")
ca1_cert = issue_cert(ca1, ca1_key, 1, ca_exts, nil, nil,
not_before: now - 5000, not_after: now + 5000)
ee_exts = [
["keyUsage", "keyEncipherment,digitalSignature", true],
]
ee1 = OpenSSL::X509::Name.parse_rfc2253("CN=EE 1")
ee1_key = Fixtures.pkey("rsa-1")
ee1_cert = issue_cert(ee1, ee1_key, 11, ee_exts, ca1_cert, ca1_key,
not_before: now - 5000, not_after: now + 5000)
ee2 = OpenSSL::X509::Name.parse_rfc2253("CN=EE 2")
ee2_key = Fixtures.pkey("rsa-2")
ee2_cert = issue_cert(ee2, ee2_key, 12, ee_exts, ca1_cert, ca1_key,
not_before: now - 5000, not_after: now - 1000)
ee3 = OpenSSL::X509::Name.parse_rfc2253("CN=EE 3")
ee3_key = Fixtures.pkey("rsa-3")
ee3_cert = issue_cert(ee3, ee3_key, 13, ee_exts, ca1_cert, ca1_key,
not_before: now + 1000, not_after: now + 5000)
# Using system time
store = OpenSSL::X509::Store.new
store.add_cert(ca1_cert)
assert_equal(true, store.verify(ee1_cert))
assert_equal(false, store.verify(ee2_cert))
assert_equal(OpenSSL::X509::V_ERR_CERT_HAS_EXPIRED, store.error)
assert_equal(false, store.verify(ee3_cert))
assert_equal(OpenSSL::X509::V_ERR_CERT_NOT_YET_VALID, store.error)
# Time set to now-2000; EE2 is still valid
store = OpenSSL::X509::Store.new
store.time = now - 2000
store.add_cert(ca1_cert)
assert_equal(true, store.verify(ee1_cert))
assert_equal(true, store.verify(ee2_cert))
assert_equal(false, store.verify(ee3_cert))
assert_equal(OpenSSL::X509::V_ERR_CERT_NOT_YET_VALID, store.error)
end
def test_verify_with_crl
ca_exts = [
["basicConstraints", "CA:TRUE", true],
["keyUsage", "cRLSign,keyCertSign", true],
]
ca1 = OpenSSL::X509::Name.parse_rfc2253("CN=Root CA")
ca1_key = Fixtures.pkey("rsa-1")
ca1_cert = issue_cert(ca1, ca1_key, 1, ca_exts, nil, nil)
ca2 = OpenSSL::X509::Name.parse_rfc2253("CN=Intermediate CA")
ca2_key = Fixtures.pkey("rsa-2")
ca2_cert = issue_cert(ca2, ca2_key, 2, ca_exts, ca1_cert, ca1_key)
ee_exts = [
["keyUsage", "keyEncipherment,digitalSignature", true],
]
ee1 = OpenSSL::X509::Name.parse_rfc2253("CN=EE 1")
ee1_key = Fixtures.pkey("rsa-3")
ee1_cert = issue_cert(ee1, ee1_key, 10, ee_exts, ca2_cert, ca2_key)
ee2 = OpenSSL::X509::Name.parse_rfc2253("CN=EE 2")
ee2_key = Fixtures.pkey("rsa-3")
ee2_cert = issue_cert(ee2, ee2_key, 20, ee_exts, ca2_cert, ca2_key)
# OpenSSL uses time(2) while Time.now uses clock_gettime(CLOCK_REALTIME),
# and there may be difference, so giving 50 seconds margin.
now = Time.now - 50
revoke_info = []
ca1_crl1 = issue_crl(revoke_info, 1, now, now+1800, [], ca1_cert, ca1_key, "sha256")
revoke_info = [ [2, now, 1], ]
ca1_crl2 = issue_crl(revoke_info, 2, now, now+1800, [], ca1_cert, ca1_key, "sha256")
revoke_info = [ [20, now, 1], ]
ca2_crl1 = issue_crl(revoke_info, 1, now, now+1800, [], ca2_cert, ca2_key, "sha256")
revoke_info = []
ca2_crl2 = issue_crl(revoke_info, 2, now-100, now-1, [], ca2_cert, ca2_key, "sha256")
# CRL check required, but no CRL supplied
store = OpenSSL::X509::Store.new
store.flags = OpenSSL::X509::V_FLAG_CRL_CHECK
store.add_cert(ca1_cert)
assert_equal(false, store.verify(ca2_cert))
assert_equal(OpenSSL::X509::V_ERR_UNABLE_TO_GET_CRL, store.error)
# Intermediate CA revoked EE2
store = OpenSSL::X509::Store.new
store.flags = OpenSSL::X509::V_FLAG_CRL_CHECK
store.add_cert(ca1_cert)
store.add_crl(ca1_crl1) # revoke no cert
store.add_crl(ca2_crl1) # revoke ee2_cert
assert_equal(true, store.verify(ca2_cert))
assert_equal(true, store.verify(ee1_cert, [ca2_cert]))
assert_equal(false, store.verify(ee2_cert, [ca2_cert]))
# Root CA revoked Intermediate CA; Intermediate CA revoked EE2
store = OpenSSL::X509::Store.new
store.flags = OpenSSL::X509::V_FLAG_CRL_CHECK
store.add_cert(ca1_cert)
store.add_crl(ca1_crl2) # revoke ca2_cert
store.add_crl(ca2_crl1) # revoke ee2_cert
assert_equal(false, store.verify(ca2_cert))
# Validity of intermediate CAs is not checked by default
assert_equal(true, store.verify(ee1_cert, [ca2_cert]))
assert_equal(false, store.verify(ee2_cert, [ca2_cert]))
# Same as above, but with OpenSSL::X509::V_FLAG_CRL_CHECK_ALL
store = OpenSSL::X509::Store.new
store.flags = OpenSSL::X509::V_FLAG_CRL_CHECK|OpenSSL::X509::V_FLAG_CRL_CHECK_ALL
store.add_cert(ca1_cert)
store.add_crl(ca1_crl2) # revoke ca2_cert
store.add_crl(ca2_crl1) # revoke ee2_cert
assert_equal(false, store.verify(ca2_cert))
assert_equal(false, store.verify(ee1_cert, [ca2_cert]))
assert_equal(false, store.verify(ee2_cert, [ca2_cert]))
# Expired CRL supplied
store = OpenSSL::X509::Store.new
store.flags = OpenSSL::X509::V_FLAG_CRL_CHECK|OpenSSL::X509::V_FLAG_CRL_CHECK_ALL
store.add_cert(ca1_cert)
store.add_cert(ca2_cert)
store.add_crl(ca1_crl1)
store.add_crl(ca2_crl2) # issued by ca2 but expired
assert_equal(true, store.verify(ca2_cert))
assert_equal(false, store.verify(ee1_cert))
assert_equal(OpenSSL::X509::V_ERR_CRL_HAS_EXPIRED, store.error)
assert_equal(false, store.verify(ee2_cert))
end
def test_add_cert_duplicate
ca1 = OpenSSL::X509::Name.parse_rfc2253("CN=Root CA")
ca1_key = Fixtures.pkey("rsa-1")
ca1_cert = issue_cert(ca1, ca1_key, 1, [], nil, nil)
store = OpenSSL::X509::Store.new
store.add_cert(ca1_cert)
assert_nothing_raised {
store.add_cert(ca1_cert) # add same certificate twice
}
now = Time.now
revoke_info = []
crl1 = issue_crl(revoke_info, 1, now, now+1800, [],
ca1_cert, ca1_key, "sha256")
revoke_info = [ [2, now, 1], ]
crl2 = issue_crl(revoke_info, 2, now+1800, now+3600, [],
ca1_cert, ca1_key, "sha256")
store.add_crl(crl1)
assert_nothing_raised {
store.add_crl(crl2) # add CRL issued by same CA twice.
}
end
def test_dup
store = OpenSSL::X509::Store.new
assert_raise(NoMethodError) { store.dup }
ctx = OpenSSL::X509::StoreContext.new(store)
assert_raise(NoMethodError) { ctx.dup }
end
def test_ctx_cleanup
# Deprecated in Ruby 1.9.3
cert = OpenSSL::X509::Certificate.new
store = OpenSSL::X509::Store.new
ctx = OpenSSL::X509::StoreContext.new(store, cert, [])
assert_warning(/cleanup/) { ctx.cleanup }
end
end
end
|
