blob: 648027d3e6d40fa77fc517d0de723ef7e900c430 [file] [log] [blame]
// Copyright 2015 The Weave Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/privet/auth_manager.h"
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <weave/settings.h>
#include "src/config.h"
#include "src/data_encoding.h"
#include "src/privet/mock_delegates.h"
#include "src/test/mock_access_revocation_manager.h"
#include "src/test/mock_clock.h"
using testing::_;
using testing::Return;
using testing::SaveArg;
using testing::StrictMock;
namespace weave {
namespace privet {
class MockAccessRevocationManager : public test::MockAccessRevocationManager {
public:
MockAccessRevocationManager() {
EXPECT_CALL(*this, AddEntryAddedCallback(_))
.WillOnce(SaveArg<0>(&changed_callback_));
EXPECT_CALL(*this, IsBlocked(_, _, _)).WillRepeatedly(Return(false));
}
base::Closure changed_callback_;
};
class AuthManagerTest : public testing::Test {
public:
void SetUp() override {
EXPECT_GE(auth_.GetAuthSecret().size(), 32u);
EXPECT_GE(auth_.GetAccessSecret().size(), 32u);
EXPECT_GE(auth_.GetCertificateFingerprint().size(), 32u);
EXPECT_CALL(clock_, Now())
.WillRepeatedly(Return(base::Time::FromTimeT(1410000000)));
}
protected:
std::vector<uint8_t> DelegateToUser(const std::vector<uint8_t>& token,
base::TimeDelta ttl,
const UserInfo& user_info) const {
return auth_.DelegateToUser(token, ttl, user_info);
}
const std::vector<uint8_t> kSecret1{
78, 40, 39, 68, 29, 19, 70, 86, 38, 61, 13, 55, 33, 32, 51, 52,
34, 43, 97, 48, 8, 56, 11, 99, 50, 59, 24, 26, 31, 71, 76, 28};
const std::vector<uint8_t> kSecret2{
69, 53, 17, 37, 80, 73, 2, 5, 79, 64, 41, 57, 12, 54, 65, 63,
72, 74, 93, 81, 20, 95, 89, 3, 94, 92, 27, 21, 49, 90, 36, 6};
const std::vector<uint8_t> kFingerprint{
22, 47, 23, 77, 42, 98, 96, 25, 83, 16, 9, 14, 91, 44, 15, 75,
60, 62, 10, 18, 82, 35, 88, 100, 30, 45, 7, 46, 67, 84, 58, 85};
test::MockClock clock_;
StrictMock<MockAccessRevocationManager> black_list_;
AuthManager auth_{kSecret1, kFingerprint, kSecret2, &clock_, &black_list_};
};
TEST_F(AuthManagerTest, RandomSecret) {
AuthManager auth{{}, {}, {}, &clock_};
EXPECT_EQ(auth.GetAuthSecret().size(), 32u);
EXPECT_EQ(auth.GetAccessSecret().size(), 32u);
}
TEST_F(AuthManagerTest, DifferentSecret) {
AuthManager auth{kSecret2, {}, kSecret1};
EXPECT_EQ(auth.GetAuthSecret().size(), 32u);
EXPECT_EQ(auth.GetAccessSecret().size(), 32u);
EXPECT_NE(auth_.GetAccessSecret(), auth.GetAccessSecret());
EXPECT_NE(auth_.GetAuthSecret(), auth.GetAuthSecret());
}
TEST_F(AuthManagerTest, Constructor) {
EXPECT_EQ(kSecret1, auth_.GetAuthSecret());
EXPECT_EQ(kSecret2, auth_.GetAccessSecret());
EXPECT_EQ(kFingerprint, auth_.GetCertificateFingerprint());
}
TEST_F(AuthManagerTest, CreateAccessToken) {
EXPECT_EQ("WC2FRggaG52hAEIBFEYJRDIzNABCCkBGBRobnaEAUFAF46oQlMmXgnLstt7wU2w=",
Base64Encode(auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer, TestUserId{"234"}}, {})));
EXPECT_EQ("WC2FRggaG52hAEIBCEYJRDI1NwBCCkBGBRobnaEAUEdWRNHcu/0mA6c3e0tgDrk=",
Base64Encode(auth_.CreateAccessToken(
UserInfo{AuthScope::kManager, TestUserId{"257"}}, {})));
EXPECT_EQ("WC2FRggaG52hAEIBAkYJRDQ1NgBCCkBGBRobnaEAUH2ZLgUPdTtjNRa+PoDkMW4=",
Base64Encode(auth_.CreateAccessToken(
UserInfo{AuthScope::kOwner, TestUserId{"456"}}, {})));
auto new_time = clock_.Now() + base::TimeDelta::FromDays(11);
EXPECT_CALL(clock_, Now()).WillRepeatedly(Return(new_time));
EXPECT_EQ("WC2FRggaG6whgEIBDkYJRDM0NQBCCkBGBRobrCGAUDAFptj7bbYmbpaa6Wpb1Wo=",
Base64Encode(auth_.CreateAccessToken(
UserInfo{AuthScope::kUser, TestUserId{"345"}}, {})));
}
TEST_F(AuthManagerTest, CreateSameToken) {
EXPECT_EQ(auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer, TestUserId{"555"}}, {}),
auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer, TestUserId{"555"}}, {}));
}
TEST_F(AuthManagerTest, CreateSameTokenWithApp) {
EXPECT_EQ(auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer,
{AuthType::kLocal, {1, 2, 3}, {4, 5, 6}}},
{}),
auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer,
{AuthType::kLocal, {1, 2, 3}, {4, 5, 6}}},
{}));
}
TEST_F(AuthManagerTest, CreateSameTokenWithDifferentType) {
EXPECT_NE(auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer,
{AuthType::kLocal, {1, 2, 3}, {4, 5, 6}}},
{}),
auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer,
{AuthType::kPairing, {1, 2, 3}, {4, 5, 6}}},
{}));
}
TEST_F(AuthManagerTest, CreateSameTokenWithDifferentApp) {
EXPECT_NE(auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer,
{AuthType::kLocal, {1, 2, 3}, {4, 5, 6}}},
{}),
auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer,
{AuthType::kLocal, {1, 2, 3}, {4, 5, 7}}},
{}));
}
TEST_F(AuthManagerTest, CreateTokenDifferentScope) {
EXPECT_NE(auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer, TestUserId{"456"}}, {}),
auth_.CreateAccessToken(
UserInfo{AuthScope::kOwner, TestUserId{"456"}}, {}));
}
TEST_F(AuthManagerTest, CreateTokenDifferentUser) {
EXPECT_NE(auth_.CreateAccessToken(
UserInfo{AuthScope::kOwner, TestUserId{"456"}}, {}),
auth_.CreateAccessToken(
UserInfo{AuthScope::kOwner, TestUserId{"789"}}, {}));
}
TEST_F(AuthManagerTest, CreateTokenDifferentTime) {
auto token = auth_.CreateAccessToken(
UserInfo{AuthScope::kOwner, TestUserId{"567"}}, {});
EXPECT_CALL(clock_, Now())
.WillRepeatedly(Return(base::Time::FromTimeT(1400000000)));
EXPECT_NE(token, auth_.CreateAccessToken(
UserInfo{AuthScope::kOwner, TestUserId{"567"}}, {}));
}
TEST_F(AuthManagerTest, CreateTokenDifferentInstance) {
EXPECT_NE(auth_.CreateAccessToken(
UserInfo{AuthScope::kUser, TestUserId{"123"}}, {}),
AuthManager({}, nullptr, {})
.CreateAccessToken(
UserInfo{AuthScope::kUser, TestUserId{"123"}}, {}));
}
TEST_F(AuthManagerTest, ParseAccessToken) {
// Multiple attempts with random secrets.
const auto kStartTime = base::Time::FromTimeT(1412121212);
for (size_t i = 0; i < 1000; ++i) {
EXPECT_CALL(clock_, Now()).WillRepeatedly(Return(kStartTime));
AuthManager auth{{}, {}, {}, &clock_};
auto token =
auth.CreateAccessToken(UserInfo{AuthScope::kUser, TestUserId{"5"}},
base::TimeDelta::FromSeconds(i));
UserInfo user_info;
EXPECT_FALSE(auth_.ParseAccessToken(token, &user_info, nullptr));
EXPECT_TRUE(auth.ParseAccessToken(token, &user_info, nullptr));
EXPECT_EQ(AuthScope::kUser, user_info.scope());
EXPECT_EQ(TestUserId{"5"}, user_info.id());
EXPECT_CALL(clock_, Now())
.WillRepeatedly(Return(kStartTime + base::TimeDelta::FromSeconds(i)));
EXPECT_TRUE(auth.ParseAccessToken(token, &user_info, nullptr));
auto extended =
DelegateToUser(token, base::TimeDelta::FromSeconds(1000),
UserInfo{AuthScope::kUser, TestUserId{"234"}});
EXPECT_FALSE(auth.ParseAccessToken(extended, &user_info, nullptr));
EXPECT_CALL(clock_, Now())
.WillRepeatedly(
Return(kStartTime + base::TimeDelta::FromSeconds(i + 1)));
EXPECT_FALSE(auth.ParseAccessToken(token, &user_info, nullptr));
}
}
TEST_F(AuthManagerTest, AccessTokenAfterReset) {
UserInfo user_info;
auto token1 = auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer, TestUserId{"555"}}, {});
EXPECT_TRUE(auth_.ParseAccessToken(token1, &user_info, nullptr));
black_list_.changed_callback_.Run();
auto token2 = auth_.CreateAccessToken(
UserInfo{AuthScope::kViewer, TestUserId{"555"}}, {});
EXPECT_NE(token1, token2);
EXPECT_FALSE(auth_.ParseAccessToken(token1, &user_info, nullptr));
EXPECT_TRUE(auth_.ParseAccessToken(token2, &user_info, nullptr));
}
TEST_F(AuthManagerTest, GetRootClientAuthToken) {
EXPECT_EQ("WCCDQxkgAUYIGhudoQBCDABQX3fPR5zsPnrs9aOSvS7/eQ==",
Base64Encode(
auth_.GetRootClientAuthToken(RootClientTokenOwner::kClient)));
}
TEST_F(AuthManagerTest, GetRootClientAuthTokenDifferentOwner) {
EXPECT_EQ(
"WCCDQxkgAUYIGhudoQBCDAFQRrCQfq+g7drVwCbxpug4Ig==",
Base64Encode(auth_.GetRootClientAuthToken(RootClientTokenOwner::kCloud)));
}
TEST_F(AuthManagerTest, GetRootClientAuthTokenDifferentTime) {
auto new_time = clock_.Now() + base::TimeDelta::FromDays(15);
EXPECT_CALL(clock_, Now()).WillRepeatedly(Return(new_time));
EXPECT_EQ("WCCDQxkgAUYIGhuxZ4BCDABQ9omJ3ooMrcYUZ1DiVqNKAA==",
Base64Encode(
auth_.GetRootClientAuthToken(RootClientTokenOwner::kClient)));
}
TEST_F(AuthManagerTest, GetRootClientAuthTokenDifferentSecret) {
AuthManager auth{kSecret2, {}, kSecret1, &clock_};
EXPECT_EQ(
"WCCDQxkgAUYIGhudoQBCDABQWl2CB8CiP1BiV0ksnnkQQQ==",
Base64Encode(auth.GetRootClientAuthToken(RootClientTokenOwner::kClient)));
}
TEST_F(AuthManagerTest, IsValidAuthToken) {
EXPECT_TRUE(auth_.IsValidAuthToken(
auth_.GetRootClientAuthToken(RootClientTokenOwner::kClient), nullptr));
// Multiple attempts with random secrets.
for (size_t i = 0; i < 1000; ++i) {
AuthManager auth{{}, {}, {}, &clock_};
auto token = auth.GetRootClientAuthToken(RootClientTokenOwner::kClient);
EXPECT_FALSE(auth_.IsValidAuthToken(token, nullptr));
EXPECT_TRUE(auth.IsValidAuthToken(token, nullptr));
}
}
TEST_F(AuthManagerTest, CreateSessionId) {
EXPECT_EQ("463315200:1", auth_.CreateSessionId());
}
TEST_F(AuthManagerTest, IsValidSessionId) {
EXPECT_TRUE(auth_.IsValidSessionId("463315200:1"));
EXPECT_TRUE(auth_.IsValidSessionId("463315200:2"));
EXPECT_TRUE(auth_.IsValidSessionId("463315150"));
// Future
EXPECT_FALSE(auth_.IsValidSessionId("463315230:1"));
// Expired
EXPECT_FALSE(auth_.IsValidSessionId("463315100:1"));
}
TEST_F(AuthManagerTest, CreateAccessTokenFromAuth) {
std::vector<uint8_t> access_token;
AuthScope scope;
base::TimeDelta ttl;
auto root = auth_.GetRootClientAuthToken(RootClientTokenOwner::kCloud);
auto extended = DelegateToUser(root, base::TimeDelta::FromSeconds(1000),
UserInfo{AuthScope::kUser, TestUserId{"234"}});
EXPECT_EQ(
"WEWIQxkgAUYIGhudoQBCDAFGCBobnaEARgUaG52k6EIBDkUJQzIzNE0RSzQ2MzMxNTIwMDox"
"UIujtnCZlcRvJPOra5BwM6E=",
Base64Encode(extended));
EXPECT_TRUE(
auth_.CreateAccessTokenFromAuth(extended, base::TimeDelta::FromDays(1),
&access_token, &scope, &ttl, nullptr));
UserInfo user_info;
EXPECT_TRUE(auth_.ParseAccessToken(access_token, &user_info, nullptr));
EXPECT_EQ(scope, user_info.scope());
EXPECT_EQ(AuthScope::kUser, user_info.scope());
EXPECT_EQ(TestUserId{"234"}, user_info.id());
}
TEST_F(AuthManagerTest, CreateAccessTokenFromAuthNotMinted) {
std::vector<uint8_t> access_token;
auto root = auth_.GetRootClientAuthToken(RootClientTokenOwner::kClient);
ErrorPtr error;
EXPECT_FALSE(auth_.CreateAccessTokenFromAuth(
root, base::TimeDelta::FromDays(1), nullptr, nullptr, nullptr, &error));
EXPECT_TRUE(error->HasError("invalidAuthCode"));
}
TEST_F(AuthManagerTest, CreateAccessTokenFromAuthValidateAfterSomeTime) {
auto root = auth_.GetRootClientAuthToken(RootClientTokenOwner::kClient);
auto extended = DelegateToUser(root, base::TimeDelta::FromSeconds(1000),
UserInfo{AuthScope::kUser, TestUserId{"234"}});
// new_time < session_id_expiration < token_expiration.
auto new_time = clock_.Now() + base::TimeDelta::FromSeconds(15);
EXPECT_CALL(clock_, Now()).WillRepeatedly(Return(new_time));
EXPECT_TRUE(
auth_.CreateAccessTokenFromAuth(extended, base::TimeDelta::FromDays(1),
nullptr, nullptr, nullptr, nullptr));
}
TEST_F(AuthManagerTest, CreateAccessTokenFromAuthExpired) {
auto root = auth_.GetRootClientAuthToken(RootClientTokenOwner::kClient);
auto extended = DelegateToUser(root, base::TimeDelta::FromSeconds(10),
UserInfo{AuthScope::kUser, TestUserId{"234"}});
ErrorPtr error;
// token_expiration < new_time < session_id_expiration.
auto new_time = clock_.Now() + base::TimeDelta::FromSeconds(15);
EXPECT_CALL(clock_, Now()).WillRepeatedly(Return(new_time));
EXPECT_FALSE(
auth_.CreateAccessTokenFromAuth(extended, base::TimeDelta::FromDays(1),
nullptr, nullptr, nullptr, &error));
EXPECT_TRUE(error->HasError("invalidAuthCode"));
}
TEST_F(AuthManagerTest, CreateAccessTokenFromAuthExpiredSessionid) {
auto root = auth_.GetRootClientAuthToken(RootClientTokenOwner::kClient);
auto extended = DelegateToUser(root, base::TimeDelta::FromSeconds(1000),
UserInfo{AuthScope::kUser, TestUserId{"234"}});
ErrorPtr error;
// session_id_expiration < new_time < token_expiration.
auto new_time = clock_.Now() + base::TimeDelta::FromSeconds(200);
EXPECT_CALL(clock_, Now()).WillRepeatedly(Return(new_time));
EXPECT_FALSE(
auth_.CreateAccessTokenFromAuth(extended, base::TimeDelta::FromDays(1),
nullptr, nullptr, nullptr, &error));
EXPECT_TRUE(error->HasError("invalidAuthCode"));
}
TEST_F(AuthManagerTest, CreateAccessTokenFromAuthRevoked) {
TestUserId user{"234"};
EXPECT_CALL(black_list_, IsBlocked(user.user, _, clock_.Now()))
.WillOnce(Return(true));
std::vector<uint8_t> access_token;
auto root = auth_.GetRootClientAuthToken(RootClientTokenOwner::kCloud);
auto extended = DelegateToUser(root, base::TimeDelta::FromSeconds(1000),
UserInfo{AuthScope::kUser, user});
ErrorPtr error;
EXPECT_FALSE(
auth_.CreateAccessTokenFromAuth(extended, base::TimeDelta::FromDays(1),
nullptr, nullptr, nullptr, &error));
EXPECT_TRUE(error->HasError("invalidAuthCode"));
}
class AuthManagerClaimTest : public testing::Test {
public:
void SetUp() override { EXPECT_EQ(auth_.GetAuthSecret().size(), 32u); }
bool TestClaim(RootClientTokenOwner owner, RootClientTokenOwner claimer) {
Config::Transaction change{&config_};
change.set_root_client_token_owner(owner);
change.Commit();
return !auth_.ClaimRootClientAuthToken(claimer, nullptr).empty();
}
protected:
Config config_{nullptr};
AuthManager auth_{&config_, nullptr, {}};
};
TEST_F(AuthManagerClaimTest, WithPreviosOwner) {
EXPECT_DEATH(
TestClaim(RootClientTokenOwner::kNone, RootClientTokenOwner::kNone), "");
EXPECT_DEATH(
TestClaim(RootClientTokenOwner::kClient, RootClientTokenOwner::kNone),
"");
EXPECT_DEATH(
TestClaim(RootClientTokenOwner::kCloud, RootClientTokenOwner::kNone), "");
EXPECT_TRUE(
TestClaim(RootClientTokenOwner::kNone, RootClientTokenOwner::kClient));
EXPECT_FALSE(
TestClaim(RootClientTokenOwner::kClient, RootClientTokenOwner::kClient));
EXPECT_FALSE(
TestClaim(RootClientTokenOwner::kCloud, RootClientTokenOwner::kClient));
EXPECT_TRUE(
TestClaim(RootClientTokenOwner::kNone, RootClientTokenOwner::kCloud));
EXPECT_TRUE(
TestClaim(RootClientTokenOwner::kClient, RootClientTokenOwner::kCloud));
EXPECT_TRUE(
TestClaim(RootClientTokenOwner::kCloud, RootClientTokenOwner::kCloud));
}
TEST_F(AuthManagerClaimTest, NormalClaim) {
auto token =
auth_.ClaimRootClientAuthToken(RootClientTokenOwner::kCloud, nullptr);
EXPECT_FALSE(auth_.IsValidAuthToken(token, nullptr));
EXPECT_EQ(RootClientTokenOwner::kNone,
config_.GetSettings().root_client_token_owner);
EXPECT_TRUE(auth_.ConfirmClientAuthToken(token, nullptr));
EXPECT_TRUE(auth_.IsValidAuthToken(token, nullptr));
EXPECT_EQ(RootClientTokenOwner::kCloud,
config_.GetSettings().root_client_token_owner);
}
TEST_F(AuthManagerClaimTest, DoubleConfirm) {
auto token =
auth_.ClaimRootClientAuthToken(RootClientTokenOwner::kCloud, nullptr);
EXPECT_TRUE(auth_.ConfirmClientAuthToken(token, nullptr));
EXPECT_TRUE(auth_.ConfirmClientAuthToken(token, nullptr));
}
TEST_F(AuthManagerClaimTest, DoubleClaim) {
auto token1 =
auth_.ClaimRootClientAuthToken(RootClientTokenOwner::kCloud, nullptr);
auto token2 =
auth_.ClaimRootClientAuthToken(RootClientTokenOwner::kCloud, nullptr);
EXPECT_TRUE(auth_.ConfirmClientAuthToken(token1, nullptr));
EXPECT_FALSE(auth_.ConfirmClientAuthToken(token2, nullptr));
}
TEST_F(AuthManagerClaimTest, TokenOverflow) {
auto token =
auth_.ClaimRootClientAuthToken(RootClientTokenOwner::kCloud, nullptr);
for (size_t i = 0; i < 100; ++i)
auth_.ClaimRootClientAuthToken(RootClientTokenOwner::kCloud, nullptr);
EXPECT_FALSE(auth_.ConfirmClientAuthToken(token, nullptr));
}
} // namespace privet
} // namespace weave