// Copyright (c) 2012 The Chromium 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 "base/message_loop/message_loop.h"
#include "base/run_loop.h"
#include "sync/internal_api/public/base/model_type_test_util.h"
#include "sync/sessions/nudge_tracker.h"
#include "sync/test/mock_invalidation.h"
#include "sync/test/mock_invalidation_tracker.h"
#include "sync/test/trackable_mock_invalidation.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace syncer {
namespace {
testing::AssertionResult ModelTypeSetEquals(ModelTypeSet a, ModelTypeSet b) {
if (a.Equals(b)) {
return testing::AssertionSuccess();
} else {
return testing::AssertionFailure()
<< "Left side " << ModelTypeSetToString(a)
<< ", does not match rigth side: " << ModelTypeSetToString(b);
}
}
} // namespace
namespace sessions {
class NudgeTrackerTest : public ::testing::Test {
public:
NudgeTrackerTest() {
SetInvalidationsInSync();
}
static size_t GetHintBufferSize() {
// Assumes that no test has adjusted this size.
return NudgeTracker::kDefaultMaxPayloadsPerType;
}
bool InvalidationsOutOfSync() const {
// We don't currently track invalidations out of sync on a per-type basis.
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
return gu_trigger.invalidations_out_of_sync();
}
int ProtoLocallyModifiedCount(ModelType type) const {
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(type, &gu_trigger);
return gu_trigger.local_modification_nudges();
}
int ProtoRefreshRequestedCount(ModelType type) const {
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(type, &gu_trigger);
return gu_trigger.datatype_refresh_nudges();
}
void SetInvalidationsInSync() {
nudge_tracker_.OnInvalidationsEnabled();
nudge_tracker_.RecordSuccessfulSyncCycle();
}
scoped_ptr<InvalidationInterface> BuildInvalidation(
int64 version,
const std::string& payload) {
return MockInvalidation::Build(version, payload)
.PassAs<InvalidationInterface>();
}
static scoped_ptr<InvalidationInterface> BuildUnknownVersionInvalidation() {
return MockInvalidation::BuildUnknownVersion()
.PassAs<InvalidationInterface>();
}
protected:
NudgeTracker nudge_tracker_;
};
// Exercise an empty NudgeTracker.
// Use with valgrind to detect uninitialized members.
TEST_F(NudgeTrackerTest, EmptyNudgeTracker) {
// Now we're at the normal, "idle" state.
EXPECT_FALSE(nudge_tracker_.IsSyncRequired());
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::UNKNOWN,
nudge_tracker_.GetLegacySource());
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::UNKNOWN,
nudge_tracker_.GetLegacySource());
}
// Verify that nudges override each other based on a priority order.
// RETRY < LOCAL < DATATYPE_REFRESH < NOTIFICATION
TEST_F(NudgeTrackerTest, SourcePriorities) {
// Start with a retry request.
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(1234);
const base::TimeTicks t1 = t0 + base::TimeDelta::FromSeconds(10);
nudge_tracker_.SetNextRetryTime(t0);
nudge_tracker_.SetSyncCycleStartTime(t1);
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::RETRY,
nudge_tracker_.GetLegacySource());
// Track a local nudge.
nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS));
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::LOCAL,
nudge_tracker_.GetLegacySource());
// A refresh request will override it.
nudge_tracker_.RecordLocalRefreshRequest(ModelTypeSet(TYPED_URLS));
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::DATATYPE_REFRESH,
nudge_tracker_.GetLegacySource());
// Another local nudge will not be enough to change it.
nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS));
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::DATATYPE_REFRESH,
nudge_tracker_.GetLegacySource());
// An invalidation will override the refresh request source.
nudge_tracker_.RecordRemoteInvalidation(PREFERENCES,
BuildInvalidation(1, "hint"));
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::NOTIFICATION,
nudge_tracker_.GetLegacySource());
// Neither local nudges nor refresh requests will override it.
nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS));
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::NOTIFICATION,
nudge_tracker_.GetLegacySource());
nudge_tracker_.RecordLocalRefreshRequest(ModelTypeSet(TYPED_URLS));
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::NOTIFICATION,
nudge_tracker_.GetLegacySource());
}
TEST_F(NudgeTrackerTest, SourcePriority_InitialSyncRequest) {
nudge_tracker_.RecordInitialSyncRequired(BOOKMARKS);
// For lack of a better source, we describe an initial sync request as having
// source DATATYPE_REFRESH.
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::DATATYPE_REFRESH,
nudge_tracker_.GetLegacySource());
// This should never happen in practice. But, if it did, we'd want the
// initial sync required to keep the source set to DATATYPE_REFRESH.
nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS));
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::DATATYPE_REFRESH,
nudge_tracker_.GetLegacySource());
// It should be safe to let NOTIFICATIONs override it.
nudge_tracker_.RecordRemoteInvalidation(BOOKMARKS,
BuildInvalidation(1, "hint"));
EXPECT_EQ(sync_pb::GetUpdatesCallerInfo::NOTIFICATION,
nudge_tracker_.GetLegacySource());
}
// Verifies the management of invalidation hints and GU trigger fields.
TEST_F(NudgeTrackerTest, HintCoalescing) {
// Easy case: record one hint.
{
nudge_tracker_.RecordRemoteInvalidation(BOOKMARKS,
BuildInvalidation(1, "bm_hint_1"));
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
ASSERT_EQ(1, gu_trigger.notification_hint_size());
EXPECT_EQ("bm_hint_1", gu_trigger.notification_hint(0));
EXPECT_FALSE(gu_trigger.client_dropped_hints());
}
// Record a second hint for the same type.
{
nudge_tracker_.RecordRemoteInvalidation(BOOKMARKS,
BuildInvalidation(2, "bm_hint_2"));
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
ASSERT_EQ(2, gu_trigger.notification_hint_size());
// Expect the most hint recent is last in the list.
EXPECT_EQ("bm_hint_1", gu_trigger.notification_hint(0));
EXPECT_EQ("bm_hint_2", gu_trigger.notification_hint(1));
EXPECT_FALSE(gu_trigger.client_dropped_hints());
}
// Record a hint for a different type.
{
nudge_tracker_.RecordRemoteInvalidation(PASSWORDS,
BuildInvalidation(1, "pw_hint_1"));
// Re-verify the bookmarks to make sure they're unaffected.
sync_pb::GetUpdateTriggers bm_gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &bm_gu_trigger);
ASSERT_EQ(2, bm_gu_trigger.notification_hint_size());
EXPECT_EQ("bm_hint_1", bm_gu_trigger.notification_hint(0));
EXPECT_EQ("bm_hint_2",
bm_gu_trigger.notification_hint(1)); // most recent last.
EXPECT_FALSE(bm_gu_trigger.client_dropped_hints());
// Verify the new type, too.
sync_pb::GetUpdateTriggers pw_gu_trigger;
nudge_tracker_.FillProtoMessage(PASSWORDS, &pw_gu_trigger);
ASSERT_EQ(1, pw_gu_trigger.notification_hint_size());
EXPECT_EQ("pw_hint_1", pw_gu_trigger.notification_hint(0));
EXPECT_FALSE(pw_gu_trigger.client_dropped_hints());
}
}
// Test the dropping of invalidation hints. Receives invalidations one by one.
TEST_F(NudgeTrackerTest, DropHintsLocally_OneAtATime) {
for (size_t i = 0; i < GetHintBufferSize(); ++i) {
nudge_tracker_.RecordRemoteInvalidation(BOOKMARKS,
BuildInvalidation(i, "hint"));
}
{
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
EXPECT_EQ(GetHintBufferSize(),
static_cast<size_t>(gu_trigger.notification_hint_size()));
EXPECT_FALSE(gu_trigger.client_dropped_hints());
}
// Force an overflow.
nudge_tracker_.RecordRemoteInvalidation(BOOKMARKS,
BuildInvalidation(1000, "new_hint"));
{
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
EXPECT_TRUE(gu_trigger.client_dropped_hints());
ASSERT_EQ(GetHintBufferSize(),
static_cast<size_t>(gu_trigger.notification_hint_size()));
// Verify the newest hint was not dropped and is the last in the list.
EXPECT_EQ("new_hint", gu_trigger.notification_hint(GetHintBufferSize()-1));
// Verify the oldest hint, too.
EXPECT_EQ("hint", gu_trigger.notification_hint(0));
}
}
// Tests the receipt of 'unknown version' invalidations.
TEST_F(NudgeTrackerTest, DropHintsAtServer_Alone) {
// Record the unknown version invalidation.
nudge_tracker_.RecordRemoteInvalidation(BOOKMARKS,
BuildUnknownVersionInvalidation());
{
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
EXPECT_TRUE(gu_trigger.server_dropped_hints());
EXPECT_FALSE(gu_trigger.client_dropped_hints());
ASSERT_EQ(0, gu_trigger.notification_hint_size());
}
// Clear status then verify.
nudge_tracker_.RecordSuccessfulSyncCycle();
{
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
EXPECT_FALSE(gu_trigger.client_dropped_hints());
EXPECT_FALSE(gu_trigger.server_dropped_hints());
ASSERT_EQ(0, gu_trigger.notification_hint_size());
}
}
// Tests the receipt of 'unknown version' invalidations. This test also
// includes a known version invalidation to mix things up a bit.
TEST_F(NudgeTrackerTest, DropHintsAtServer_WithOtherInvalidations) {
// Record the two invalidations, one with unknown version, the other known.
nudge_tracker_.RecordRemoteInvalidation(BOOKMARKS,
BuildUnknownVersionInvalidation());
nudge_tracker_.RecordRemoteInvalidation(BOOKMARKS,
BuildInvalidation(10, "hint"));
{
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
EXPECT_TRUE(gu_trigger.server_dropped_hints());
EXPECT_FALSE(gu_trigger.client_dropped_hints());
ASSERT_EQ(1, gu_trigger.notification_hint_size());
EXPECT_EQ("hint", gu_trigger.notification_hint(0));
}
// Clear status then verify.
nudge_tracker_.RecordSuccessfulSyncCycle();
{
sync_pb::GetUpdateTriggers gu_trigger;
nudge_tracker_.FillProtoMessage(BOOKMARKS, &gu_trigger);
EXPECT_FALSE(gu_trigger.client_dropped_hints());
EXPECT_FALSE(gu_trigger.server_dropped_hints());
ASSERT_EQ(0, gu_trigger.notification_hint_size());
}
}
// Checks the behaviour of the invalidations-out-of-sync flag.
TEST_F(NudgeTrackerTest, EnableDisableInvalidations) {
// Start with invalidations offline.
nudge_tracker_.OnInvalidationsDisabled();
EXPECT_TRUE(InvalidationsOutOfSync());
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
// Simply enabling invalidations does not bring us back into sync.
nudge_tracker_.OnInvalidationsEnabled();
EXPECT_TRUE(InvalidationsOutOfSync());
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
// We must successfully complete a sync cycle while invalidations are enabled
// to be sure that we're in sync.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(InvalidationsOutOfSync());
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// If the invalidator malfunctions, we go become unsynced again.
nudge_tracker_.OnInvalidationsDisabled();
EXPECT_TRUE(InvalidationsOutOfSync());
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
// A sync cycle while invalidations are disabled won't reset the flag.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_TRUE(InvalidationsOutOfSync());
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
// Nor will the re-enabling of invalidations be sufficient, even now that
// we've had a successful sync cycle.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_TRUE(InvalidationsOutOfSync());
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
}
// Tests that locally modified types are correctly written out to the
// GetUpdateTriggers proto.
TEST_F(NudgeTrackerTest, WriteLocallyModifiedTypesToProto) {
// Should not be locally modified by default.
EXPECT_EQ(0, ProtoLocallyModifiedCount(PREFERENCES));
// Record a local bookmark change. Verify it was registered correctly.
nudge_tracker_.RecordLocalChange(ModelTypeSet(PREFERENCES));
EXPECT_EQ(1, ProtoLocallyModifiedCount(PREFERENCES));
// Record a successful sync cycle. Verify the count is cleared.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_EQ(0, ProtoLocallyModifiedCount(PREFERENCES));
}
// Tests that refresh requested types are correctly written out to the
// GetUpdateTriggers proto.
TEST_F(NudgeTrackerTest, WriteRefreshRequestedTypesToProto) {
// There should be no refresh requested by default.
EXPECT_EQ(0, ProtoRefreshRequestedCount(SESSIONS));
// Record a local refresh request. Verify it was registered correctly.
nudge_tracker_.RecordLocalRefreshRequest(ModelTypeSet(SESSIONS));
EXPECT_EQ(1, ProtoRefreshRequestedCount(SESSIONS));
// Record a successful sync cycle. Verify the count is cleared.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_EQ(0, ProtoRefreshRequestedCount(SESSIONS));
}
// Basic tests for the IsSyncRequired() flag.
TEST_F(NudgeTrackerTest, IsSyncRequired) {
EXPECT_FALSE(nudge_tracker_.IsSyncRequired());
// Initial sync request.
nudge_tracker_.RecordInitialSyncRequired(BOOKMARKS);
EXPECT_TRUE(nudge_tracker_.IsSyncRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsSyncRequired());
// Local changes.
nudge_tracker_.RecordLocalChange(ModelTypeSet(SESSIONS));
EXPECT_TRUE(nudge_tracker_.IsSyncRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsSyncRequired());
// Refresh requests.
nudge_tracker_.RecordLocalRefreshRequest(ModelTypeSet(SESSIONS));
EXPECT_TRUE(nudge_tracker_.IsSyncRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsSyncRequired());
// Invalidations.
nudge_tracker_.RecordRemoteInvalidation(PREFERENCES,
BuildInvalidation(1, "hint"));
EXPECT_TRUE(nudge_tracker_.IsSyncRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsSyncRequired());
}
// Basic tests for the IsGetUpdatesRequired() flag.
TEST_F(NudgeTrackerTest, IsGetUpdatesRequired) {
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// Initial sync request.
nudge_tracker_.RecordInitialSyncRequired(BOOKMARKS);
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// Local changes.
nudge_tracker_.RecordLocalChange(ModelTypeSet(SESSIONS));
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// Refresh requests.
nudge_tracker_.RecordLocalRefreshRequest(ModelTypeSet(SESSIONS));
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// Invalidations.
nudge_tracker_.RecordRemoteInvalidation(PREFERENCES,
BuildInvalidation(1, "hint"));
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
}
// Test IsSyncRequired() responds correctly to data type throttling.
TEST_F(NudgeTrackerTest, IsSyncRequired_Throttling) {
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(1234);
const base::TimeDelta throttle_length = base::TimeDelta::FromMinutes(10);
const base::TimeTicks t1 = t0 + throttle_length;
EXPECT_FALSE(nudge_tracker_.IsSyncRequired());
// A local change to sessions enables the flag.
nudge_tracker_.RecordLocalChange(ModelTypeSet(SESSIONS));
EXPECT_TRUE(nudge_tracker_.IsSyncRequired());
// But the throttling of sessions unsets it.
nudge_tracker_.SetTypesThrottledUntil(ModelTypeSet(SESSIONS),
throttle_length,
t0);
EXPECT_FALSE(nudge_tracker_.IsSyncRequired());
// A refresh request for bookmarks means we have reason to sync again.
nudge_tracker_.RecordLocalRefreshRequest(ModelTypeSet(BOOKMARKS));
EXPECT_TRUE(nudge_tracker_.IsSyncRequired());
// A successful sync cycle means we took care of bookmarks.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsSyncRequired());
// But we still haven't dealt with sessions. We'll need to remember
// that sessions are out of sync and re-enable the flag when their
// throttling interval expires.
nudge_tracker_.UpdateTypeThrottlingState(t1);
EXPECT_FALSE(nudge_tracker_.IsTypeThrottled(SESSIONS));
EXPECT_TRUE(nudge_tracker_.IsSyncRequired());
}
// Test IsGetUpdatesRequired() responds correctly to data type throttling.
TEST_F(NudgeTrackerTest, IsGetUpdatesRequired_Throttling) {
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(1234);
const base::TimeDelta throttle_length = base::TimeDelta::FromMinutes(10);
const base::TimeTicks t1 = t0 + throttle_length;
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// A refresh request to sessions enables the flag.
nudge_tracker_.RecordLocalRefreshRequest(ModelTypeSet(SESSIONS));
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
// But the throttling of sessions unsets it.
nudge_tracker_.SetTypesThrottledUntil(ModelTypeSet(SESSIONS),
throttle_length,
t0);
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// A refresh request for bookmarks means we have reason to sync again.
nudge_tracker_.RecordLocalRefreshRequest(ModelTypeSet(BOOKMARKS));
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
// A successful sync cycle means we took care of bookmarks.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// But we still haven't dealt with sessions. We'll need to remember
// that sessions are out of sync and re-enable the flag when their
// throttling interval expires.
nudge_tracker_.UpdateTypeThrottlingState(t1);
EXPECT_FALSE(nudge_tracker_.IsTypeThrottled(SESSIONS));
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
}
// Tests throttling-related getter functions when no types are throttled.
TEST_F(NudgeTrackerTest, NoTypesThrottled) {
EXPECT_FALSE(nudge_tracker_.IsAnyTypeThrottled());
EXPECT_FALSE(nudge_tracker_.IsTypeThrottled(SESSIONS));
EXPECT_TRUE(nudge_tracker_.GetThrottledTypes().Empty());
}
// Tests throttling-related getter functions when some types are throttled.
TEST_F(NudgeTrackerTest, ThrottleAndUnthrottle) {
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(1234);
const base::TimeDelta throttle_length = base::TimeDelta::FromMinutes(10);
const base::TimeTicks t1 = t0 + throttle_length;
nudge_tracker_.SetTypesThrottledUntil(ModelTypeSet(SESSIONS, PREFERENCES),
throttle_length,
t0);
EXPECT_TRUE(nudge_tracker_.IsAnyTypeThrottled());
EXPECT_TRUE(nudge_tracker_.IsTypeThrottled(SESSIONS));
EXPECT_TRUE(nudge_tracker_.IsTypeThrottled(PREFERENCES));
EXPECT_FALSE(nudge_tracker_.GetThrottledTypes().Empty());
EXPECT_EQ(throttle_length, nudge_tracker_.GetTimeUntilNextUnthrottle(t0));
nudge_tracker_.UpdateTypeThrottlingState(t1);
EXPECT_FALSE(nudge_tracker_.IsAnyTypeThrottled());
EXPECT_FALSE(nudge_tracker_.IsTypeThrottled(SESSIONS));
EXPECT_TRUE(nudge_tracker_.GetThrottledTypes().Empty());
}
TEST_F(NudgeTrackerTest, OverlappingThrottleIntervals) {
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(1234);
const base::TimeDelta throttle1_length = base::TimeDelta::FromMinutes(10);
const base::TimeDelta throttle2_length = base::TimeDelta::FromMinutes(20);
const base::TimeTicks t1 = t0 + throttle1_length;
const base::TimeTicks t2 = t0 + throttle2_length;
// Setup the longer of two intervals.
nudge_tracker_.SetTypesThrottledUntil(ModelTypeSet(SESSIONS, PREFERENCES),
throttle2_length,
t0);
EXPECT_TRUE(ModelTypeSetEquals(
ModelTypeSet(SESSIONS, PREFERENCES),
nudge_tracker_.GetThrottledTypes()));
EXPECT_EQ(throttle2_length,
nudge_tracker_.GetTimeUntilNextUnthrottle(t0));
// Setup the shorter interval.
nudge_tracker_.SetTypesThrottledUntil(ModelTypeSet(SESSIONS, BOOKMARKS),
throttle1_length,
t0);
EXPECT_TRUE(ModelTypeSetEquals(
ModelTypeSet(SESSIONS, PREFERENCES, BOOKMARKS),
nudge_tracker_.GetThrottledTypes()));
EXPECT_EQ(throttle1_length,
nudge_tracker_.GetTimeUntilNextUnthrottle(t0));
// Expire the first interval.
nudge_tracker_.UpdateTypeThrottlingState(t1);
// SESSIONS appeared in both intervals. We expect it will be throttled for
// the longer of the two, so it's still throttled at time t1.
EXPECT_TRUE(ModelTypeSetEquals(
ModelTypeSet(SESSIONS, PREFERENCES),
nudge_tracker_.GetThrottledTypes()));
EXPECT_EQ(throttle2_length - throttle1_length,
nudge_tracker_.GetTimeUntilNextUnthrottle(t1));
// Expire the second interval.
nudge_tracker_.UpdateTypeThrottlingState(t2);
EXPECT_TRUE(nudge_tracker_.GetThrottledTypes().Empty());
}
TEST_F(NudgeTrackerTest, Retry) {
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(12345);
const base::TimeTicks t3 = t0 + base::TimeDelta::FromSeconds(3);
const base::TimeTicks t4 = t0 + base::TimeDelta::FromSeconds(4);
// Set retry for t3.
nudge_tracker_.SetNextRetryTime(t3);
// Not due yet at t0.
nudge_tracker_.SetSyncCycleStartTime(t0);
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// Successful sync cycle at t0 changes nothing.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
EXPECT_FALSE(nudge_tracker_.IsGetUpdatesRequired());
// At t4, the retry becomes due.
nudge_tracker_.SetSyncCycleStartTime(t4);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
EXPECT_TRUE(nudge_tracker_.IsGetUpdatesRequired());
// A sync cycle unsets the flag.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
// It's still unset at the start of the next sync cycle.
nudge_tracker_.SetSyncCycleStartTime(t4);
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
}
// Test a mid-cycle update when IsRetryRequired() was true before the cycle
// began.
TEST_F(NudgeTrackerTest, IsRetryRequired_MidCycleUpdate1) {
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(12345);
const base::TimeTicks t1 = t0 + base::TimeDelta::FromSeconds(1);
const base::TimeTicks t2 = t0 + base::TimeDelta::FromSeconds(2);
const base::TimeTicks t5 = t0 + base::TimeDelta::FromSeconds(5);
const base::TimeTicks t6 = t0 + base::TimeDelta::FromSeconds(6);
nudge_tracker_.SetNextRetryTime(t0);
nudge_tracker_.SetSyncCycleStartTime(t1);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
// Pretend that we were updated mid-cycle. SetSyncCycleStartTime is
// called only at the start of the sync cycle, so don't call it here.
// The update should have no effect on IsRetryRequired().
nudge_tracker_.SetNextRetryTime(t5);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
// Verify that the successful sync cycle clears the flag.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
// Verify expecations around the new retry time.
nudge_tracker_.SetSyncCycleStartTime(t2);
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
nudge_tracker_.SetSyncCycleStartTime(t6);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
}
// Test a mid-cycle update when IsRetryRequired() was false before the cycle
// began.
TEST_F(NudgeTrackerTest, IsRetryRequired_MidCycleUpdate2) {
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(12345);
const base::TimeTicks t1 = t0 + base::TimeDelta::FromSeconds(1);
const base::TimeTicks t3 = t0 + base::TimeDelta::FromSeconds(3);
const base::TimeTicks t5 = t0 + base::TimeDelta::FromSeconds(5);
const base::TimeTicks t6 = t0 + base::TimeDelta::FromSeconds(6);
// Schedule a future retry, and a nudge unrelated to it.
nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS));
nudge_tracker_.SetNextRetryTime(t1);
nudge_tracker_.SetSyncCycleStartTime(t0);
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
// Pretend this happened in mid-cycle. This should have no effect on
// IsRetryRequired().
nudge_tracker_.SetNextRetryTime(t5);
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
// The cycle succeeded.
nudge_tracker_.RecordSuccessfulSyncCycle();
// The time t3 is greater than the GU retry time scheduled at the beginning of
// the test, but later than the retry time that overwrote it during the
// pretend 'sync cycle'.
nudge_tracker_.SetSyncCycleStartTime(t3);
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
// Finally, the retry established during the sync cycle becomes due.
nudge_tracker_.SetSyncCycleStartTime(t6);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
}
// Simulate the case where a sync cycle fails.
TEST_F(NudgeTrackerTest, IsRetryRequired_FailedCycle) {
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(12345);
const base::TimeTicks t1 = t0 + base::TimeDelta::FromSeconds(1);
const base::TimeTicks t2 = t0 + base::TimeDelta::FromSeconds(2);
nudge_tracker_.SetNextRetryTime(t0);
nudge_tracker_.SetSyncCycleStartTime(t1);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
// The nudge tracker receives no notifications for a failed sync cycle.
// Pretend one happened here.
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
// Think of this as the retry cycle.
nudge_tracker_.SetSyncCycleStartTime(t2);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
// The second cycle is a success.
nudge_tracker_.RecordSuccessfulSyncCycle();
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
}
// Simulate a partially failed sync cycle. The callback to update the GU retry
// was invoked, but the sync cycle did not complete successfully.
TEST_F(NudgeTrackerTest, IsRetryRequired_FailedCycleIncludesUpdate) {
const base::TimeTicks t0 = base::TimeTicks::FromInternalValue(12345);
const base::TimeTicks t1 = t0 + base::TimeDelta::FromSeconds(1);
const base::TimeTicks t3 = t0 + base::TimeDelta::FromSeconds(3);
const base::TimeTicks t4 = t0 + base::TimeDelta::FromSeconds(4);
const base::TimeTicks t5 = t0 + base::TimeDelta::FromSeconds(5);
const base::TimeTicks t6 = t0 + base::TimeDelta::FromSeconds(6);
nudge_tracker_.SetNextRetryTime(t0);
nudge_tracker_.SetSyncCycleStartTime(t1);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
// The cycle is in progress. A new GU Retry time is received.
// The flag is not because this cycle is still in progress.
nudge_tracker_.SetNextRetryTime(t5);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
// The nudge tracker receives no notifications for a failed sync cycle.
// Pretend the cycle failed here.
// The next sync cycle starts. The new GU time has not taken effect by this
// time, but the NudgeTracker hasn't forgotten that we have not yet serviced
// the retry from the previous cycle.
nudge_tracker_.SetSyncCycleStartTime(t3);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
// It succeeds. The retry time is not updated, so it should remain at t5.
nudge_tracker_.RecordSuccessfulSyncCycle();
// Another sync cycle. This one is still before the scheduled retry. It does
// not change the scheduled retry time.
nudge_tracker_.SetSyncCycleStartTime(t4);
EXPECT_FALSE(nudge_tracker_.IsRetryRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
// The retry scheduled way back during the first cycle of this test finally
// becomes due. Perform a successful sync cycle to service it.
nudge_tracker_.SetSyncCycleStartTime(t6);
EXPECT_TRUE(nudge_tracker_.IsRetryRequired());
nudge_tracker_.RecordSuccessfulSyncCycle();
}
// Test the default nudge delays for various types.
TEST_F(NudgeTrackerTest, NudgeDelayTest) {
// Set to a known value to compare against.
nudge_tracker_.SetDefaultNudgeDelay(base::TimeDelta());
// Bookmarks and preference both have "slow nudge" delays.
EXPECT_EQ(nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS)),
nudge_tracker_.RecordLocalChange(ModelTypeSet(PREFERENCES)));
// Typed URLs has a default delay.
EXPECT_EQ(nudge_tracker_.RecordLocalChange(ModelTypeSet(TYPED_URLS)),
base::TimeDelta());
// "Slow nudge" delays are longer than the default.
EXPECT_GT(nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS)),
base::TimeDelta());
// Sessions is longer than "slow nudge".
EXPECT_GT(nudge_tracker_.RecordLocalChange(ModelTypeSet(SESSIONS)),
nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS)));
// Favicons have the same delay as sessions.
EXPECT_EQ(nudge_tracker_.RecordLocalChange(ModelTypeSet(SESSIONS)),
nudge_tracker_.RecordLocalChange(ModelTypeSet(FAVICON_TRACKING)));
// Autofill has the longer delay of all.
EXPECT_GT(nudge_tracker_.RecordLocalChange(ModelTypeSet(AUTOFILL)),
nudge_tracker_.RecordLocalChange(ModelTypeSet(SESSIONS)));
// A nudge with no types takes the longest delay.
EXPECT_EQ(nudge_tracker_.RecordLocalChange(ModelTypeSet(AUTOFILL)),
nudge_tracker_.RecordLocalChange(ModelTypeSet()));
// The actual nudge delay should be the shortest of the set.
EXPECT_EQ(
nudge_tracker_.RecordLocalChange(ModelTypeSet(TYPED_URLS)),
nudge_tracker_.RecordLocalChange(ModelTypeSet(TYPED_URLS, AUTOFILL)));
}
// Test that custom nudge delays are used over the defaults.
TEST_F(NudgeTrackerTest, CustomDelayTest) {
// Set some custom delays.
std::map<ModelType, base::TimeDelta> delay_map;
delay_map[BOOKMARKS] = base::TimeDelta::FromSeconds(10);
delay_map[SESSIONS] = base::TimeDelta::FromSeconds(2);
nudge_tracker_.OnReceivedCustomNudgeDelays(delay_map);
// Only those with custom delays should be affected, not another type.
EXPECT_NE(nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS)),
nudge_tracker_.RecordLocalChange(ModelTypeSet(PREFERENCES)));
EXPECT_EQ(base::TimeDelta::FromSeconds(10),
nudge_tracker_.RecordLocalChange(ModelTypeSet(BOOKMARKS)));
EXPECT_EQ(base::TimeDelta::FromSeconds(2),
nudge_tracker_.RecordLocalChange(ModelTypeSet(SESSIONS)));
}
// Check that custom nudge delays can never result in a value shorter than the
// minimum nudge delay.
TEST_F(NudgeTrackerTest, NoTypesShorterThanDefault) {
// Set delay to a known value.
nudge_tracker_.SetDefaultNudgeDelay(base::TimeDelta::FromMilliseconds(500));
std::map<ModelType, base::TimeDelta> delay_map;
ModelTypeSet protocol_types = syncer::ProtocolTypes();
for (ModelTypeSet::Iterator iter = protocol_types.First(); iter.Good();
iter.Inc()) {
delay_map[iter.Get()] = base::TimeDelta();
}
nudge_tracker_.OnReceivedCustomNudgeDelays(delay_map);
// All types should still have a nudge greater than or equal to the minimum.
for (ModelTypeSet::Iterator iter = protocol_types.First(); iter.Good();
iter.Inc()) {
EXPECT_GE(nudge_tracker_.RecordLocalChange(ModelTypeSet(iter.Get())),
base::TimeDelta::FromMilliseconds(500));
}
}
class NudgeTrackerAckTrackingTest : public NudgeTrackerTest {
public:
NudgeTrackerAckTrackingTest() {}
bool IsInvalidationUnacknowledged(int tracking_id) {
return tracker_.IsUnacked(tracking_id);
}
bool IsInvalidationAcknowledged(int tracking_id) {
return tracker_.IsAcknowledged(tracking_id);
}
bool IsInvalidationDropped(int tracking_id) {
return tracker_.IsDropped(tracking_id);
}
int SendInvalidation(ModelType type, int version, const std::string& hint) {
// Build and register the invalidation.
scoped_ptr<TrackableMockInvalidation> inv =
tracker_.IssueInvalidation(version, hint);
int id = inv->GetTrackingId();
// Send it to the NudgeTracker.
nudge_tracker_.RecordRemoteInvalidation(
type, inv.PassAs<InvalidationInterface>());
// Return its ID to the test framework for use in assertions.
return id;
}
int SendUnknownVersionInvalidation(ModelType type) {
// Build and register the invalidation.
scoped_ptr<TrackableMockInvalidation> inv =
tracker_.IssueUnknownVersionInvalidation();
int id = inv->GetTrackingId();
// Send it to the NudgeTracker.
nudge_tracker_.RecordRemoteInvalidation(
type, inv.PassAs<InvalidationInterface>());
// Return its ID to the test framework for use in assertions.
return id;
}
bool AllInvalidationsAccountedFor() const {
return tracker_.AllInvalidationsAccountedFor();
}
void RecordSuccessfulSyncCycle() {
nudge_tracker_.RecordSuccessfulSyncCycle();
}
private:
MockInvalidationTracker tracker_;
};
// Test the acknowledgement of a single invalidation.
TEST_F(NudgeTrackerAckTrackingTest, SimpleAcknowledgement) {
int inv_id = SendInvalidation(BOOKMARKS, 10, "hint");
EXPECT_TRUE(IsInvalidationUnacknowledged(inv_id));
RecordSuccessfulSyncCycle();
EXPECT_TRUE(IsInvalidationAcknowledged(inv_id));
EXPECT_TRUE(AllInvalidationsAccountedFor());
}
// Test the acknowledgement of many invalidations.
TEST_F(NudgeTrackerAckTrackingTest, ManyAcknowledgements) {
int inv1_id = SendInvalidation(BOOKMARKS, 10, "hint");
int inv2_id = SendInvalidation(BOOKMARKS, 14, "hint2");
int inv3_id = SendInvalidation(PREFERENCES, 8, "hint3");
EXPECT_TRUE(IsInvalidationUnacknowledged(inv1_id));
EXPECT_TRUE(IsInvalidationUnacknowledged(inv2_id));
EXPECT_TRUE(IsInvalidationUnacknowledged(inv3_id));
RecordSuccessfulSyncCycle();
EXPECT_TRUE(IsInvalidationAcknowledged(inv1_id));
EXPECT_TRUE(IsInvalidationAcknowledged(inv2_id));
EXPECT_TRUE(IsInvalidationAcknowledged(inv3_id));
EXPECT_TRUE(AllInvalidationsAccountedFor());
}
// Test dropping when the buffer overflows and subsequent drop recovery.
TEST_F(NudgeTrackerAckTrackingTest, OverflowAndRecover) {
std::vector<int> invalidation_ids;
int inv10_id = SendInvalidation(BOOKMARKS, 10, "hint");
for (size_t i = 1; i < GetHintBufferSize(); ++i) {
invalidation_ids.push_back(SendInvalidation(BOOKMARKS, i + 10, "hint"));
}
for (std::vector<int>::iterator it = invalidation_ids.begin();
it != invalidation_ids.end();
++it) {
EXPECT_TRUE(IsInvalidationUnacknowledged(*it));
}
// This invalidation, though arriving the most recently, has the oldest
// version number so it should be dropped first.
int inv5_id = SendInvalidation(BOOKMARKS, 5, "old_hint");
EXPECT_TRUE(IsInvalidationDropped(inv5_id));
// This invalidation has a larger version number, so it will force a
// previously delivered invalidation to be dropped.
int inv100_id = SendInvalidation(BOOKMARKS, 100, "new_hint");
EXPECT_TRUE(IsInvalidationDropped(inv10_id));
// This should recover from the drop and bring us back into sync.
RecordSuccessfulSyncCycle();
for (std::vector<int>::iterator it = invalidation_ids.begin();
it != invalidation_ids.end();
++it) {
EXPECT_TRUE(IsInvalidationAcknowledged(*it));
}
EXPECT_TRUE(IsInvalidationAcknowledged(inv100_id));
EXPECT_TRUE(AllInvalidationsAccountedFor());
}
// Test receipt of an unknown version invalidation from the server.
TEST_F(NudgeTrackerAckTrackingTest, UnknownVersionFromServer_Simple) {
int inv_id = SendUnknownVersionInvalidation(BOOKMARKS);
EXPECT_TRUE(IsInvalidationUnacknowledged(inv_id));
RecordSuccessfulSyncCycle();
EXPECT_TRUE(IsInvalidationAcknowledged(inv_id));
EXPECT_TRUE(AllInvalidationsAccountedFor());
}
// Test receipt of multiple unknown version invalidations from the server.
TEST_F(NudgeTrackerAckTrackingTest, UnknownVersionFromServer_Complex) {
int inv1_id = SendUnknownVersionInvalidation(BOOKMARKS);
int inv2_id = SendInvalidation(BOOKMARKS, 10, "hint");
int inv3_id = SendUnknownVersionInvalidation(BOOKMARKS);
int inv4_id = SendUnknownVersionInvalidation(BOOKMARKS);
int inv5_id = SendInvalidation(BOOKMARKS, 20, "hint2");
// These invalidations have been overridden, so they got acked early.
EXPECT_TRUE(IsInvalidationAcknowledged(inv1_id));
EXPECT_TRUE(IsInvalidationAcknowledged(inv3_id));
// These invalidations are still waiting to be used.
EXPECT_TRUE(IsInvalidationUnacknowledged(inv2_id));
EXPECT_TRUE(IsInvalidationUnacknowledged(inv4_id));
EXPECT_TRUE(IsInvalidationUnacknowledged(inv5_id));
// Finish the sync cycle and expect all remaining invalidations to be acked.
RecordSuccessfulSyncCycle();
EXPECT_TRUE(IsInvalidationAcknowledged(inv1_id));
EXPECT_TRUE(IsInvalidationAcknowledged(inv2_id));
EXPECT_TRUE(IsInvalidationAcknowledged(inv3_id));
EXPECT_TRUE(IsInvalidationAcknowledged(inv4_id));
EXPECT_TRUE(IsInvalidationAcknowledged(inv5_id));
EXPECT_TRUE(AllInvalidationsAccountedFor());
}
} // namespace sessions
} // namespace syncer