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weave / weave / libweave / 9365e3b996ccbda44d80eadd0895c5bad8238de2 / . / src / privet / security_manager_unittest.cc
blob: 72297102197157088aba89bf63662f19c4e4cb93 [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/security_manager.h"
#include <algorithm>
#include <cctype>
#include <functional>
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include <base/bind.h>
#include <base/logging.h>
#include <base/rand_util.h>
#include <base/strings/string_number_conversions.h>
#include <base/strings/string_util.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include <weave/provider/test/fake_task_runner.h>
#include "src/data_encoding.h"
#include "src/privet/openssl_utils.h"
#include "third_party/chromium/crypto/p224_spake.h"
using testing::Eq;
using testing::_;
namespace weave {
namespace privet {
namespace {
bool IsBase64Char(char c) {
return isalnum(c) || (c == '+') || (c == '/') || (c == '=');
}
bool IsBase64(const std::string& text) {
return !text.empty() &&
!std::any_of(text.begin(), text.end(),
std::not1(std::ref(IsBase64Char)));
}
class MockPairingCallbacks {
public:
MOCK_METHOD3(OnPairingStart,
void(const std::string& session_id,
PairingType pairing_type,
const std::vector<uint8_t>& code));
MOCK_METHOD1(OnPairingEnd, void(const std::string& session_id));
};
} // namespace
class SecurityManagerTest : public testing::Test {
public:
void SetUp() override {
std::vector<uint8_t> fingerprint;
fingerprint.resize(32);
base::RandBytes(fingerprint.data(), fingerprint.size());
security_.SetCertificateFingerprint(fingerprint);
}
protected:
void PairAndAuthenticate(std::string* fingerprint, std::string* signature) {
std::string session_id;
std::string device_commitment_base64;
EXPECT_TRUE(security_.StartPairing(PairingType::kEmbeddedCode,
CryptoType::kSpake_p224, &session_id,
&device_commitment_base64, nullptr));
EXPECT_FALSE(session_id.empty());
EXPECT_FALSE(device_commitment_base64.empty());
crypto::P224EncryptedKeyExchange spake{
crypto::P224EncryptedKeyExchange::kPeerTypeClient, "1234"};
std::string client_commitment_base64{Base64Encode(spake.GetNextMessage())};
EXPECT_TRUE(security_.ConfirmPairing(session_id, client_commitment_base64,
fingerprint, signature, nullptr));
EXPECT_TRUE(IsBase64(*fingerprint));
EXPECT_TRUE(IsBase64(*signature));
std::vector<uint8_t> device_commitment;
ASSERT_TRUE(Base64Decode(device_commitment_base64, &device_commitment));
spake.ProcessMessage(
std::string(device_commitment.begin(), device_commitment.end()));
const std::string& key = spake.GetUnverifiedKey();
std::vector<uint8_t> auth_code{
HmacSha256(std::vector<uint8_t>{key.begin(), key.end()},
std::vector<uint8_t>{session_id.begin(), session_id.end()})};
std::string auth_code_base64{Base64Encode(auth_code)};
EXPECT_TRUE(security_.IsValidPairingCode(auth_code_base64));
}
const base::Time time_ = base::Time::FromTimeT(1410000000);
provider::test::FakeTaskRunner task_runner_;
SecurityManager security_{{},
{PairingType::kEmbeddedCode},
"1234",
false,
&task_runner_};
};
TEST_F(SecurityManagerTest, RandomSecret) {
EXPECT_GE(security_.GetSecret().size(), 32);
EXPECT_TRUE(IsBase64(security_.GetSecret()));
}
TEST_F(SecurityManagerTest, DifferentSecret) {
SecurityManager security{{}, {}, "", false, &task_runner_};
EXPECT_NE(security_.GetSecret(), security.GetSecret());
}
TEST_F(SecurityManagerTest, ExternalSecret) {
const std::string kSecret = "T1SDv9CVGNO82zHKeRrUSzpAzjb1hmRyzXGotsn1gcU=";
SecurityManager security{kSecret, {}, "", false, &task_runner_};
EXPECT_EQ(kSecret, security.GetSecret());
}
TEST_F(SecurityManagerTest, IsBase64) {
EXPECT_TRUE(IsBase64(
security_.CreateAccessToken(UserInfo{AuthScope::kUser, 7}, time_)));
}
TEST_F(SecurityManagerTest, CreateSameToken) {
EXPECT_EQ(
security_.CreateAccessToken(UserInfo{AuthScope::kViewer, 555}, time_),
security_.CreateAccessToken(UserInfo{AuthScope::kViewer, 555}, time_));
}
TEST_F(SecurityManagerTest, CreateTokenDifferentScope) {
EXPECT_NE(
security_.CreateAccessToken(UserInfo{AuthScope::kViewer, 456}, time_),
security_.CreateAccessToken(UserInfo{AuthScope::kOwner, 456}, time_));
}
TEST_F(SecurityManagerTest, CreateTokenDifferentUser) {
EXPECT_NE(
security_.CreateAccessToken(UserInfo{AuthScope::kOwner, 456}, time_),
security_.CreateAccessToken(UserInfo{AuthScope::kOwner, 789}, time_));
}
TEST_F(SecurityManagerTest, CreateTokenDifferentTime) {
EXPECT_NE(
security_.CreateAccessToken(UserInfo{AuthScope::kOwner, 567}, time_),
security_.CreateAccessToken(UserInfo{AuthScope::kOwner, 567},
base::Time::FromTimeT(1400000000)));
}
TEST_F(SecurityManagerTest, CreateTokenDifferentInstance) {
EXPECT_NE(security_.CreateAccessToken(UserInfo{AuthScope::kUser, 123}, time_),
SecurityManager({}, {}, "", false, &task_runner_)
.CreateAccessToken(UserInfo{AuthScope::kUser, 123}, time_));
}
TEST_F(SecurityManagerTest, ParseAccessToken) {
// Multiple attempts with random secrets.
for (size_t i = 0; i < 1000; ++i) {
SecurityManager security{{}, {}, "", false, &task_runner_};
std::string token =
security.CreateAccessToken(UserInfo{AuthScope::kUser, 5}, time_);
base::Time time2;
EXPECT_EQ(AuthScope::kUser,
security.ParseAccessToken(token, &time2).scope());
EXPECT_EQ(5u, security.ParseAccessToken(token, &time2).user_id());
// Token timestamp resolution is one second.
EXPECT_GE(1, std::abs((time_ - time2).InSeconds()));
}
}
TEST_F(SecurityManagerTest, PairingNoSession) {
std::string fingerprint;
std::string signature;
ErrorPtr error;
ASSERT_FALSE(
security_.ConfirmPairing("123", "345", &fingerprint, &signature, &error));
EXPECT_EQ("unknownSession", error->GetCode());
}
TEST_F(SecurityManagerTest, Pairing) {
std::vector<std::pair<std::string, std::string> > fingerprints(2);
for (auto& it : fingerprints) {
PairAndAuthenticate(&it.first, &it.second);
}
// Same certificate.
EXPECT_EQ(fingerprints.front().first, fingerprints.back().first);
// Signed with different secret.
EXPECT_NE(fingerprints.front().second, fingerprints.back().second);
}
TEST_F(SecurityManagerTest, NotifiesListenersOfSessionStartAndEnd) {
testing::StrictMock<MockPairingCallbacks> callbacks;
security_.RegisterPairingListeners(
base::Bind(&MockPairingCallbacks::OnPairingStart,
base::Unretained(&callbacks)),
base::Bind(&MockPairingCallbacks::OnPairingEnd,
base::Unretained(&callbacks)));
for (auto commitment_suffix :
std::vector<std::string>{"", "invalid_commitment"}) {
// StartPairing should notify us that a new session has begun.
std::string session_id;
std::string device_commitment;
EXPECT_CALL(callbacks, OnPairingStart(_, PairingType::kEmbeddedCode, _));
EXPECT_TRUE(security_.StartPairing(PairingType::kEmbeddedCode,
CryptoType::kSpake_p224, &session_id,
&device_commitment, nullptr));
EXPECT_FALSE(session_id.empty());
EXPECT_FALSE(device_commitment.empty());
testing::Mock::VerifyAndClearExpectations(&callbacks);
// ConfirmPairing should notify us that the session has ended.
EXPECT_CALL(callbacks, OnPairingEnd(Eq(session_id)));
crypto::P224EncryptedKeyExchange spake{
crypto::P224EncryptedKeyExchange::kPeerTypeServer, "1234"};
std::string client_commitment = Base64Encode(spake.GetNextMessage());
std::string fingerprint, signature;
// Regardless of whether the commitment is valid or not, we should get a
// callback indicating that the pairing session is gone.
security_.ConfirmPairing(session_id, client_commitment + commitment_suffix,
&fingerprint, &signature, nullptr);
testing::Mock::VerifyAndClearExpectations(&callbacks);
}
}
TEST_F(SecurityManagerTest, CancelPairing) {
testing::StrictMock<MockPairingCallbacks> callbacks;
security_.RegisterPairingListeners(
base::Bind(&MockPairingCallbacks::OnPairingStart,
base::Unretained(&callbacks)),
base::Bind(&MockPairingCallbacks::OnPairingEnd,
base::Unretained(&callbacks)));
std::string session_id;
std::string device_commitment;
EXPECT_CALL(callbacks, OnPairingStart(_, PairingType::kEmbeddedCode, _));
EXPECT_TRUE(security_.StartPairing(PairingType::kEmbeddedCode,
CryptoType::kSpake_p224, &session_id,
&device_commitment, nullptr));
EXPECT_CALL(callbacks, OnPairingEnd(Eq(session_id)));
EXPECT_TRUE(security_.CancelPairing(session_id, nullptr));
}
TEST_F(SecurityManagerTest, ThrottlePairing) {
auto pair = [this]() {
std::string session_id;
std::string device_commitment;
ErrorPtr error;
bool result = security_.StartPairing(PairingType::kEmbeddedCode,
CryptoType::kSpake_p224, &session_id,
&device_commitment, &error);
EXPECT_TRUE(result || error->GetCode() == "deviceBusy");
return result;
};
EXPECT_TRUE(pair());
EXPECT_TRUE(pair());
EXPECT_TRUE(pair());
EXPECT_FALSE(pair());
EXPECT_GT(security_.block_pairing_until_, base::Time::Now());
EXPECT_LE(security_.block_pairing_until_,
base::Time::Now() + base::TimeDelta::FromMinutes(15));
// Wait timeout.
security_.block_pairing_until_ =
base::Time::Now() - base::TimeDelta::FromMinutes(1);
// Allow exactly one attempt.
EXPECT_TRUE(pair());
EXPECT_FALSE(pair());
// Wait timeout.
security_.block_pairing_until_ =
base::Time::Now() - base::TimeDelta::FromMinutes(1);
// Completely unblock by successfully pairing.
std::string fingerprint;
std::string signature;
PairAndAuthenticate(&fingerprint, &signature);
// Now we have 3 attempts again.
EXPECT_TRUE(pair());
EXPECT_TRUE(pair());
EXPECT_TRUE(pair());
EXPECT_FALSE(pair());
}
TEST_F(SecurityManagerTest, DontBlockForCanceledSessions) {
for (int i = 0; i < 20; ++i) {
std::string session_id;
std::string device_commitment;
EXPECT_TRUE(security_.StartPairing(PairingType::kEmbeddedCode,
CryptoType::kSpake_p224, &session_id,
&device_commitment, nullptr));
EXPECT_TRUE(security_.CancelPairing(session_id, nullptr));
}
}
} // namespace privet
} // namespace weave