1 // Copyright 2013 The Chromium Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style license that can be 3 // found in the LICENSE file. 4 5 #include "chrome/browser/sync/test/integration/retry_verifier.h" 6 7 #include <algorithm> 8 9 #include "base/logging.h" 10 #include "sync/internal_api/public/engine/polling_constants.h" 11 #include "sync/internal_api/public/sessions/sync_session_snapshot.h" 12 13 namespace { 14 // Given the current delay calculate the minimum and maximum wait times for 15 // the next retry. 16 DelayInfo CalculateDelay(int64 current_delay) { 17 int64 backoff_s = std::max(static_cast<int64>(1), current_delay * 18 syncer::kBackoffRandomizationFactor); 19 20 DelayInfo delay_info; 21 delay_info.min_delay = backoff_s + (-1 * current_delay/ 22 syncer::kBackoffRandomizationFactor); 23 delay_info.max_delay = backoff_s + current_delay/2; 24 25 delay_info.min_delay = std::max(static_cast<int64>(1), 26 std::min(delay_info.min_delay, syncer::kMaxBackoffSeconds)); 27 28 delay_info.max_delay = std::max(static_cast<int64>(1), 29 std::min(delay_info.max_delay, syncer::kMaxBackoffSeconds)); 30 31 return delay_info; 32 } 33 34 // Fills the table with the maximum and minimum values for each retry, upto 35 // |count| number of retries. 36 void FillDelayTable(DelayInfo* delay_table, int count) { 37 DCHECK(count > 1); 38 39 // We start off with the minimum value of 2 seconds. 40 delay_table[0].min_delay = static_cast<int64>(2); 41 delay_table[0].max_delay = static_cast<int64>(2); 42 43 for (int i = 1 ; i < count ; ++i) { 44 delay_table[i].min_delay = CalculateDelay(delay_table[i-1].min_delay). 45 min_delay; 46 delay_table[i].max_delay = CalculateDelay(delay_table[i-1].max_delay). 47 max_delay; 48 } 49 } 50 } // namespace 51 52 // Verifies if the current retry is on time. Note that we dont use the 53 // maximum value of the retry range in verifying, only the minimum. Reason 54 // being there is no guarantee that the retry will be on the dot. However in 55 // practice it is on the dot. But making that assumption for all the platforms 56 // would make the test flaky. However we have the global timeout for the 57 // verification which would make sure all retries take place in a reasonable 58 // amount of time. The global timeout is defined in profile sync service 59 // harness as |kExponentialBackoffVerificationTimeoutMs|. 60 bool IsRetryOnTime(DelayInfo* delay_table, int retry_count, 61 const base::TimeDelta& time_elapsed) { 62 DVLOG(1) << "Retry Count : " << retry_count 63 << " Time elapsed : " << time_elapsed.InSeconds() 64 << " Retry table min: " << delay_table[retry_count].min_delay 65 << " Retry table max: " << delay_table[retry_count].max_delay; 66 return ((time_elapsed.InSeconds() >= delay_table[retry_count].min_delay)); 67 } 68 69 RetryVerifier::RetryVerifier() : retry_count_(0), 70 success_(false), 71 done_(false) { 72 memset(&delay_table_, 0, sizeof(delay_table_)); 73 } 74 75 RetryVerifier::~RetryVerifier() { 76 } 77 78 // Initializes the state for verification. 79 void RetryVerifier::Initialize( 80 const syncer::sessions::SyncSessionSnapshot& snap) { 81 retry_count_ = 0; 82 last_sync_time_ = snap.sync_start_time(); 83 FillDelayTable(delay_table_, kMaxRetry); 84 done_ = false; 85 success_ = false; 86 } 87 88 void RetryVerifier::VerifyRetryInterval( 89 const syncer::sessions::SyncSessionSnapshot& snap) { 90 DCHECK(retry_count_ < kMaxRetry); 91 if (retry_count_ == 0) { 92 if (snap.sync_start_time() != last_sync_time_) { 93 retry_count_++; 94 last_sync_time_ = snap.sync_start_time(); 95 } 96 success_ = true; 97 return; 98 } 99 100 // Check if the sync start time has changed. If so indicates a new sync 101 // has taken place. 102 if (snap.sync_start_time() != last_sync_time_) { 103 base::TimeDelta delta = snap.sync_start_time() - last_sync_time_; 104 success_ = IsRetryOnTime(delay_table_,retry_count_ -1, delta); 105 last_sync_time_ = snap.sync_start_time(); 106 ++retry_count_; 107 done_ = (retry_count_ >= kMaxRetry); 108 return; 109 } 110 } 111 112
