private async Task ExecuteOperationsAsync(
CTLConfig config,
ILogger logger,
IMetrics metrics,
InitializationResult initializationResult,
ReadWriteQueryPercentage readWriteQueryPercentage,
CancellationToken cancellationToken)
{
logger.LogInformation("Initializing counters and metrics.");
CounterOptions readSuccessMeter = new CounterOptions {
Name = "#Read Successful Operations", Context = nameof(WorkloadType.ReadWriteQuery)
};
CounterOptions readFailureMeter = new CounterOptions {
Name = "#Read Unsuccessful Operations", Context = nameof(WorkloadType.ReadWriteQuery)
};
CounterOptions writeSuccessMeter = new CounterOptions {
Name = "#Write Successful Operations", Context = nameof(WorkloadType.ReadWriteQuery)
};
CounterOptions writeFailureMeter = new CounterOptions {
Name = "#Write Unsuccessful Operations", Context = nameof(WorkloadType.ReadWriteQuery)
};
CounterOptions querySuccessMeter = new CounterOptions {
Name = "#Query Successful Operations", Context = nameof(WorkloadType.ReadWriteQuery)
};
CounterOptions queryFailureMeter = new CounterOptions {
Name = "#Query Unsuccessful Operations", Context = nameof(WorkloadType.ReadWriteQuery)
};
TimerOptions readLatencyTimer = new TimerOptions
{
Name = "Read latency",
MeasurementUnit = Unit.Requests,
DurationUnit = TimeUnit.Milliseconds,
RateUnit = TimeUnit.Seconds,
Context = nameof(WorkloadType.ReadWriteQuery),
Reservoir = () => new App.Metrics.ReservoirSampling.Uniform.DefaultAlgorithmRReservoir()
};
TimerOptions writeLatencyTimer = new TimerOptions
{
Name = "Write latency",
MeasurementUnit = Unit.Requests,
DurationUnit = TimeUnit.Milliseconds,
RateUnit = TimeUnit.Seconds,
Context = nameof(WorkloadType.ReadWriteQuery),
Reservoir = () => new App.Metrics.ReservoirSampling.Uniform.DefaultAlgorithmRReservoir()
};
TimerOptions queryLatencyTimer = new TimerOptions
{
Name = "Query latency",
MeasurementUnit = Unit.Requests,
DurationUnit = TimeUnit.Milliseconds,
RateUnit = TimeUnit.Seconds,
Context = nameof(WorkloadType.ReadWriteQuery),
Reservoir = () => new App.Metrics.ReservoirSampling.Uniform.DefaultAlgorithmRReservoir()
};
SemaphoreSlim concurrencyControlSemaphore = new SemaphoreSlim(config.Concurrency);
Stopwatch stopwatch = Stopwatch.StartNew();
int writeRange = readWriteQueryPercentage.ReadPercentage + readWriteQueryPercentage.WritePercentage;
long diagnosticsThresholdDuration = (long)config.DiagnosticsThresholdDurationAsTimespan.TotalMilliseconds;
List <Task> operations = new List <Task>((int)config.Operations);
for (long i = 0; ShouldContinue(stopwatch, i, config); i++)
{
long index = (long)i % 100;
if (index < readWriteQueryPercentage.ReadPercentage)
{
operations.Add(CTLOperationHandler <ItemResponse <Dictionary <string, string> > > .PerformOperationAsync(
semaphoreSlim: concurrencyControlSemaphore,
diagnosticsLoggingThreshold: diagnosticsThresholdDuration,
createTimerContext: () => metrics.Measure.Timer.Time(readLatencyTimer),
resultProducer: new SingleExecutionResultProducer <ItemResponse <Dictionary <string, string> > >(() => this.CreateReadOperation(
operation: i,
containers: initializationResult.Containers,
createdDocumentsPerContainer: this.createdDocuments)),
onSuccess: () => metrics.Measure.Counter.Increment(readSuccessMeter),
onFailure: (Exception ex) =>
{
metrics.Measure.Counter.Increment(readFailureMeter);
logger.LogError(ex, "Failure during read operation");
},
logDiagnostics: (ItemResponse <Dictionary <string, string> > response) => logger.LogInformation("Read request took more than latency threshold {0}, diagnostics: {1}", config.DiagnosticsThresholdDuration, response.Diagnostics.ToString()),
cancellationToken: cancellationToken));
}
else if (index < writeRange)
{
operations.Add(CTLOperationHandler <ItemResponse <Dictionary <string, string> > > .PerformOperationAsync(
semaphoreSlim: concurrencyControlSemaphore,
diagnosticsLoggingThreshold: diagnosticsThresholdDuration,
createTimerContext: () => metrics.Measure.Timer.Time(writeLatencyTimer),
resultProducer: new SingleExecutionResultProducer <ItemResponse <Dictionary <string, string> > >(() => this.CreateWriteOperation(
operation: i,
containers: initializationResult.Containers,
isContentResponseOnWriteEnabled: config.IsContentResponseOnWriteEnabled)),
onSuccess: () => metrics.Measure.Counter.Increment(writeSuccessMeter),
onFailure: (Exception ex) =>
{
metrics.Measure.Counter.Increment(writeFailureMeter);
logger.LogError(ex, "Failure during write operation");
},
logDiagnostics: (ItemResponse <Dictionary <string, string> > response) => logger.LogInformation("Write request took more than latency threshold {0}, diagnostics: {1}", config.DiagnosticsThresholdDuration, response.Diagnostics.ToString()),
cancellationToken: cancellationToken));
}
else
{
operations.Add(CTLOperationHandler <FeedResponse <Dictionary <string, string> > > .PerformOperationAsync(
semaphoreSlim: concurrencyControlSemaphore,
diagnosticsLoggingThreshold: diagnosticsThresholdDuration,
createTimerContext: () => metrics.Measure.Timer.Time(queryLatencyTimer),
resultProducer: new IteratorResultProducer <Dictionary <string, string> >(this.CreateQueryOperation(
operation: i,
containers: initializationResult.Containers)),
onSuccess: () => metrics.Measure.Counter.Increment(querySuccessMeter),
onFailure: (Exception ex) =>
{
metrics.Measure.Counter.Increment(queryFailureMeter);
logger.LogError(ex, "Failure during query operation");
},
logDiagnostics: (FeedResponse <Dictionary <string, string> > response) => logger.LogInformation("Query request took more than latency threshold {0}, diagnostics: {1}", config.DiagnosticsThresholdDuration, response.Diagnostics.ToString()),
cancellationToken: cancellationToken));
}
}
await Task.WhenAll(operations);
stopwatch.Stop();
logger.LogInformation("[{0}] operations performed in [{1}] seconds.",
config.Operations, stopwatch.Elapsed.TotalSeconds);
}
private async Task ExecuteOperationsAsync(
CTLConfig config,
ILogger logger,
IMetrics metrics,
string loggingContextIdentifier,
InitializationResult initializationResult,
ReadWriteQueryPercentage readWriteQueryPercentage,
CancellationToken cancellationToken)
{
logger.LogInformation("Initializing counters and metrics.");
CounterOptions readSuccessMeter = new CounterOptions {
Name = "#Read Successful Operations", Context = loggingContextIdentifier
};
CounterOptions readFailureMeter = new CounterOptions {
Name = "#Read Unsuccessful Operations", Context = loggingContextIdentifier
};
CounterOptions writeSuccessMeter = new CounterOptions {
Name = "#Write Successful Operations", Context = loggingContextIdentifier
};
CounterOptions writeFailureMeter = new CounterOptions {
Name = "#Write Unsuccessful Operations", Context = loggingContextIdentifier
};
CounterOptions querySuccessMeter = new CounterOptions {
Name = "#Query Successful Operations", Context = loggingContextIdentifier
};
CounterOptions queryFailureMeter = new CounterOptions {
Name = "#Query Unsuccessful Operations", Context = loggingContextIdentifier
};
TimerOptions readLatencyTimer = new TimerOptions
{
Name = "Read latency",
MeasurementUnit = Unit.Requests,
DurationUnit = TimeUnit.Milliseconds,
RateUnit = TimeUnit.Seconds,
Context = loggingContextIdentifier,
Reservoir = () => new App.Metrics.ReservoirSampling.Uniform.DefaultAlgorithmRReservoir()
};
TimerOptions writeLatencyTimer = new TimerOptions
{
Name = "Write latency",
MeasurementUnit = Unit.Requests,
DurationUnit = TimeUnit.Milliseconds,
RateUnit = TimeUnit.Seconds,
Context = loggingContextIdentifier,
Reservoir = () => new App.Metrics.ReservoirSampling.Uniform.DefaultAlgorithmRReservoir()
};
TimerOptions queryLatencyTimer = new TimerOptions
{
Name = "Query latency",
MeasurementUnit = Unit.Requests,
DurationUnit = TimeUnit.Milliseconds,
RateUnit = TimeUnit.Seconds,
Context = loggingContextIdentifier,
Reservoir = () => new App.Metrics.ReservoirSampling.Uniform.DefaultAlgorithmRReservoir()
};
SemaphoreSlim concurrencyControlSemaphore = new SemaphoreSlim(config.Concurrency);
Stopwatch stopwatch = Stopwatch.StartNew();
int writeRange = readWriteQueryPercentage.ReadPercentage + readWriteQueryPercentage.WritePercentage;
List <Task> operations = new List <Task>();
for (long i = 0; ShouldContinue(stopwatch, i, config); i++)
{
await concurrencyControlSemaphore.WaitAsync(cancellationToken);
long index = i % 100;
if (index < readWriteQueryPercentage.ReadPercentage)
{
operations.Add(CTLOperationHandler <ItemResponse <Dictionary <string, string> > > .PerformOperationAsync(
createTimerContext: () => metrics.Measure.Timer.Time(readLatencyTimer),
resultProducer: new SingleExecutionResultProducer <ItemResponse <Dictionary <string, string> > >(() => this.CreateReadOperation(
operation: i,
partitionKeyAttributeName: config.CollectionPartitionKey,
containers: initializationResult.Containers,
createdDocumentsPerContainer: this.createdDocuments)),
onSuccess: () =>
{
concurrencyControlSemaphore.Release();
metrics.Measure.Counter.Increment(readSuccessMeter);
},
onFailure: (Exception ex) =>
{
concurrencyControlSemaphore.Release();
metrics.Measure.Counter.Increment(readFailureMeter);
Utils.LogError(logger, loggingContextIdentifier, ex, "Failure during read operation");
},
logDiagnostics: (ItemResponse <Dictionary <string, string> > response, TimeSpan latency) => Utils.LogDiagnostics(
logger: logger,
operationName: "Read",
timerContextLatency: latency,
config: config,
cosmosDiagnostics: response.Diagnostics)));
}
else if (index < writeRange)
{
operations.Add(CTLOperationHandler <ItemResponse <Dictionary <string, string> > > .PerformOperationAsync(
createTimerContext: () => metrics.Measure.Timer.Time(writeLatencyTimer),
resultProducer: new SingleExecutionResultProducer <ItemResponse <Dictionary <string, string> > >(() => this.CreateWriteOperation(
operation: i,
partitionKeyAttributeName: config.CollectionPartitionKey,
containers: initializationResult.Containers,
isContentResponseOnWriteEnabled: config.IsContentResponseOnWriteEnabled)),
onSuccess: () =>
{
concurrencyControlSemaphore.Release();
metrics.Measure.Counter.Increment(writeSuccessMeter);
},
onFailure: (Exception ex) =>
{
concurrencyControlSemaphore.Release();
metrics.Measure.Counter.Increment(writeFailureMeter);
Utils.LogError(logger, loggingContextIdentifier, ex, "Failure during write operation");
},
logDiagnostics: (ItemResponse <Dictionary <string, string> > response, TimeSpan latency) => Utils.LogDiagnostics(
logger: logger,
operationName: "Write",
timerContextLatency: latency,
config: config,
cosmosDiagnostics: response.Diagnostics)));
}
else
{
operations.Add(CTLOperationHandler <FeedResponse <Dictionary <string, string> > > .PerformOperationAsync(
createTimerContext: () => metrics.Measure.Timer.Time(queryLatencyTimer),
resultProducer: new IteratorResultProducer <Dictionary <string, string> >(this.CreateQueryOperation(
operation: i,
containers: initializationResult.Containers)),
onSuccess: () =>
{
concurrencyControlSemaphore.Release();
metrics.Measure.Counter.Increment(querySuccessMeter);
},
onFailure: (Exception ex) =>
{
concurrencyControlSemaphore.Release();
metrics.Measure.Counter.Increment(queryFailureMeter);
Utils.LogError(logger, loggingContextIdentifier, ex, "Failure during query operation");
},
logDiagnostics: (FeedResponse <Dictionary <string, string> > response, TimeSpan latency) => Utils.LogDiagnostics(
logger: logger,
operationName: "Query",
timerContextLatency: latency,
config: config,
cosmosDiagnostics: response.Diagnostics)));
}
}
await Task.WhenAll(operations);
stopwatch.Stop();
logger.LogInformation("[{0}] operations performed in [{1}] seconds.",
operations.Count, stopwatch.Elapsed.TotalSeconds);
}
