public GooglePubSubGapMeasure(PubSubSubscriptionOptions options)
{
_subscriptionId = options.SubscriptionId;
var emulationEnabled =
!string.IsNullOrWhiteSpace(Environment.GetEnvironmentVariable("PUBSUB_EMULATOR_HOST"));
_monitoringEnabled = !emulationEnabled && options.EnableMonitoring;
if (_monitoringEnabled)
{
_metricClient = MetricServiceClient.Create();
}
_undeliveredCountRequest = GetFilteredRequest(PubSubMetricUndeliveredMessagesCount);
_oldestAgeRequest = GetFilteredRequest(PubSubMetricOldestUnackedMessageAge);
ListTimeSeriesRequest GetFilteredRequest(string metric)
=> new()
{
Name = $"projects/{options.ProjectId}",
Filter = $"metric.type = \"pubsub.googleapis.com/subscription/{metric}\" "
+ $"AND resource.label.subscription_id = \"{options.SubscriptionId}\""
};
}
// [END monitoring_read_timeseries_fields]
// [START monitoring_read_timeseries_align]
public static object ReadTimeSeriesAggregate(string projectId,
string metricType = "compute.googleapis.com/instance/cpu/utilization")
{
// Create client.
MetricServiceClient metricServiceClient = MetricServiceClient.Create();
// Initialize request argument(s).
string filter = $"metric.type=\"{metricType}\"";
ListTimeSeriesRequest request = new ListTimeSeriesRequest
{
ProjectName = new ProjectName(projectId),
Filter = filter,
Interval = new TimeInterval(),
};
// Create timestamp for current time formatted in seconds.
long timeStamp = (long)(DateTime.UtcNow - s_unixEpoch).TotalSeconds;
Timestamp startTimeStamp = new Timestamp();
// Set startTime to limit results to the last 20 minutes.
startTimeStamp.Seconds = timeStamp - (60 * 20);
Timestamp endTimeStamp = new Timestamp();
// Set endTime to current time.
endTimeStamp.Seconds = timeStamp;
TimeInterval interval = new TimeInterval();
interval.StartTime = startTimeStamp;
interval.EndTime = endTimeStamp;
request.Interval = interval;
// Aggregate results per matching instance
Aggregation aggregation = new Aggregation();
Duration alignmentPeriod = new Duration();
alignmentPeriod.Seconds = 600;
aggregation.AlignmentPeriod = alignmentPeriod;
aggregation.PerSeriesAligner = Aggregation.Types.Aligner.AlignMean;
// Add the aggregation to the request.
request.Aggregation = aggregation;
// Make the request.
PagedEnumerable <ListTimeSeriesResponse, TimeSeries> response =
metricServiceClient.ListTimeSeries(request);
// Iterate over all response items, lazily performing RPCs as required.
Console.WriteLine($"{projectId} CPU utilization:");
foreach (var item in response)
{
var points = item.Points;
var labels = item.Metric.Labels;
Console.WriteLine($"{labels.Values.FirstOrDefault()}");
if (points.Count > 0)
{
Console.WriteLine($" Now: {points[0].Value.DoubleValue}");
}
if (points.Count > 1)
{
Console.WriteLine($" 10 min ago: {points[1].Value.DoubleValue}");
}
}
return(0);
}
/// <summary>Snippet for ListTimeSeriesAsync</summary>
public async Task ListTimeSeriesAsync_RequestObject()
{
// Snippet: ListTimeSeriesAsync(ListTimeSeriesRequest,CallSettings)
// Create client
MetricServiceClient metricServiceClient = await MetricServiceClient.CreateAsync();
// Initialize request argument(s)
ListTimeSeriesRequest request = new ListTimeSeriesRequest
{
ProjectName = new ProjectName("[PROJECT]"),
Filter = "",
Interval = new TimeInterval(),
View = ListTimeSeriesRequest.Types.TimeSeriesView.Full,
};
// Make the request
PagedAsyncEnumerable <ListTimeSeriesResponse, TimeSeries> response =
metricServiceClient.ListTimeSeriesAsync(request);
// Iterate over all response items, lazily performing RPCs as required
await response.ForEachAsync((TimeSeries item) =>
{
// Do something with each item
Console.WriteLine(item);
});
// Or iterate over pages (of server-defined size), performing one RPC per page
await response.AsRawResponses().ForEachAsync((ListTimeSeriesResponse page) =>
{
// Do something with each page of items
Console.WriteLine("A page of results:");
foreach (TimeSeries item in page)
{
Console.WriteLine(item);
}
});
// Or retrieve a single page of known size (unless it's the final page), performing as many RPCs as required
int pageSize = 10;
Page <TimeSeries> singlePage = await response.ReadPageAsync(pageSize);
// Do something with the page of items
Console.WriteLine($"A page of {pageSize} results (unless it's the final page):");
foreach (TimeSeries item in singlePage)
{
Console.WriteLine(item);
}
// Store the pageToken, for when the next page is required.
string nextPageToken = singlePage.NextPageToken;
// End snippet
}
public double ReadBucketSize(string bucketName)
{
// Initialize request argument(s)
string metricType = "storage.googleapis.com/storage/total_bytes";
string filter = $"metric.type=\"{metricType}\"";
filter += $" AND resource.labels.bucket_name =\"{bucketName}\"";
ListTimeSeriesRequest request = new ListTimeSeriesRequest
{
ProjectName = new ProjectName(Config.ProjectId),
Filter = filter,
Interval = new TimeInterval(),
View = ListTimeSeriesRequest.Types.TimeSeriesView.Full,
};
// Create timestamp for current time formatted in seconds.
long timeStamp = (long)(DateTime.UtcNow - s_unixEpoch).TotalSeconds;
Timestamp startTimeStamp = new Timestamp();
// Set startTime to limit results to the last 8*60 minutes.
// Gcs bucket size will be caculated every 24 hours.
startTimeStamp.Seconds = timeStamp - (1 * 60 * 60);
Timestamp endTimeStamp = new Timestamp();
// Set endTime to current time.
endTimeStamp.Seconds = timeStamp;
TimeInterval interval = new TimeInterval();
interval.StartTime = startTimeStamp;
interval.EndTime = endTimeStamp;
request.Interval = interval;
// Make the request.
PagedEnumerable <ListTimeSeriesResponse, TimeSeries> response =
this.metric.ListTimeSeries(request);
// Iterate over all response items, lazily performing RPCs as required.
if (response.Count() == 0)
{
throw new Exception(string.Format("failed to get bucket: {0} size", bucketName));
}
TimeSeries item = response.First();
var points = item.Points;
double size = points[0].Value.DoubleValue;
return(size);
}
public Monitoring()
{
_metricClient = MetricServiceClient.Create();
const string subId = "test-7ffc718448eb41478252677b6889332f";
_undeliveredCountRequest = new ListTimeSeriesRequest {
Name = $"projects/{PubSubFixture.ProjectId}",
Filter = "metric.type = \"pubsub.googleapis.com/subscription/num_undelivered_messages\" "
+ $"AND resource.label.subscription_id = \"{subId}\""
};
_oldestAgeRequest = new ListTimeSeriesRequest {
Name = $"projects/{PubSubFixture.ProjectId}",
Filter = "metric.type = \"pubsub.googleapis.com/subscription/oldest_unacked_message_age\" "
+ $"AND resource.label.subscription_id = \"{subId}\""
};
}
// [END monitoring_read_timeseries_simple]
// [START monitoring_read_timeseries_fields]
public static object ReadTimeSeriesFields(string projectId,
string metricType = "compute.googleapis.com/instance/cpu/utilization")
{
Console.WriteLine($"metricType{ metricType}");
// Create client.
MetricServiceClient metricServiceClient = MetricServiceClient.Create();
// Initialize request argument(s).
string filter = $"metric.type=\"{metricType}\"";
ListTimeSeriesRequest request = new ListTimeSeriesRequest
{
ProjectName = new ProjectName(projectId),
Filter = filter,
Interval = new TimeInterval(),
View = ListTimeSeriesRequest.Types.TimeSeriesView.Headers,
};
// Create timestamp for current time formatted in seconds.
long timeStamp = (long)(DateTime.UtcNow - s_unixEpoch).TotalSeconds;
Timestamp startTimeStamp = new Timestamp();
// Set startTime to limit results to the last 20 minutes.
startTimeStamp.Seconds = timeStamp - (60 * 20);
Timestamp endTimeStamp = new Timestamp();
// Set endTime to current time.
endTimeStamp.Seconds = timeStamp;
TimeInterval interval = new TimeInterval();
interval.StartTime = startTimeStamp;
interval.EndTime = endTimeStamp;
request.Interval = interval;
// Make the request.
PagedEnumerable <ListTimeSeriesResponse, TimeSeries> response =
metricServiceClient.ListTimeSeries(request);
// Iterate over all response items, lazily performing RPCs as required.
Console.Write("Found data points for the following instances:");
foreach (var item in response)
{
Console.WriteLine(JObject.Parse($"{item}").ToString());
}
return(0);
}
