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Use Azure Monitor to Analyze Azure Files metrics

Understanding how to monitor file share performance is critical to ensuring that your application is running as efficiently as possible. This article shows you how to use Azure Monitor to analyze Azure Files metrics such as availability, latency, and utilization.

See Monitor Azure Files for details on the monitoring data you can collect for Azure Files and how to use it.

Applies to

File share type SMB NFS
Standard file shares (GPv2), LRS/ZRS Yes No
Standard file shares (GPv2), GRS/GZRS Yes No
Premium file shares (FileStorage), LRS/ZRS Yes Yes

Supported metrics

Metrics for Azure Files are in these namespaces:

  • Microsoft.Storage/storageAccounts
  • Microsoft.Storage/storageAccounts/fileServices

For a list of available metrics for Azure Files, see Azure Files monitoring data reference.

For a list of all Azure Monitor supported metrics, which includes Azure Files, see Azure Monitor supported metrics.

View Azure Files metrics data

You can view Azure Files metrics by using the Azure portal, PowerShell, Azure CLI, or .NET.

You can analyze metrics for Azure Storage with metrics from other Azure services by using Azure Monitor Metrics Explorer. Open metrics explorer by choosing Metrics from the Azure Monitor menu. For details on using this tool, see Analyze metrics with Azure Monitor metrics explorer.

For metrics that support dimensions, you can filter the metric with the desired dimension value. For a complete list of the dimensions that Azure Storage supports, see Metrics dimensions.

Monitor workload performance

You can use Azure Monitor to analyze workloads that utilize Azure Files. Follow these steps.

  1. Navigate to your storage account in the Azure portal.
  2. In the service menu, under Monitoring, select Metrics.
  3. Under Metric namespace, select File.

Screenshot showing how to select the Files metric namespace.

Now you can select a metric depending on what you want to monitor.

Monitor availability

In Azure Monitor, the Availability metric can be useful when something is visibly wrong from either an application or user perspective, or when troubleshooting alerts.

When using this metric with Azure Files, it’s important to always view the aggregation as Average as opposed to Max or Min. Using Average will help you understand what percentage of your requests are experiencing errors, and if they are within the SLA for Azure Files.

Screenshot showing the available transaction metrics in Azure Monitor.

Monitor latency

The two most important latency metrics are Success E2E Latency and Success Server Latency. These are ideal metrics to select when starting any performance investigation. Average is the recommended aggregation. As previously mentioned, Max and Min can sometimes be misleading.

In the following charts, the blue line indicates how much time is spent in total latency (Success E2E Latency), and the pink line indicates time spent only in the Azure Files service (Success Server Latency).

This chart is an example of a client machine that has mounted an Azure file share from an on-premises environment. This will likely represent a typical user connecting from either an office, home, or other remote location. You'll see that the physical distance between the client and Azure region is closely correlated to the corresponding client-side latency, which represents the difference between the E2E and Server latency.

Screenshot showing latency metrics with a remote user connecting to an Azure file share.

In comparison, the following chart shows a situation where both the client and the Azure file share are located within the same region. Note that the client-side latency is only 0.17ms compared to 43.9ms in the first chart. This illustrates why minimizing client-side latency is imperative in order to achieve optimal performance.

Screenshot showing latency metrics when the client and Azure file share are located in the same region.

Another latency indicator to look that for might suggest a problem is an increased frequency or abnormal spikes in Success Server Latency. This is commonly due to throttling due to exceeding the Azure Files scale limits for standard file shares, or an under-provisioned Azure Files Premium Share.

For more information, see Troubleshoot high latency, low throughput, or low IOPS.

Monitor utilization

Utilization metrics that measure the amount of data being transmitted (throughput) or operations being serviced (IOPS) are commonly used to determine how much work is being performed by the application or workload. Transaction metrics can determine the number of operations or requests against the Azure Files service over various time granularity.

If you're using the Egress or Ingress metrics to determine the volume of inbound or outbound data, use the Sum aggregation to determine the total amount of data being transmitted to and from the file share over a 1 minute to 1 day time granularity. Other aggregations such as Average, Max, and Min only display the value of the individual I/O size. This is why most customers will typically see 1 MiB when using the Max aggregation. While it can be useful to understand the size of your largest, smallest, or even average I/O size, it isn't possible to display the distribution of I/O size generated by the workload's usage pattern.

You can also select Apply splitting on response types (success, failures, errors) or API operations (read, write, create, close) to display additional details as shown in the following chart.

Screenshot showing utilization metrics split by API name.

To determine the average I/O per second (IOPS) for your workload, first determine the total number of transactions over a minute and then divide that number by 60 seconds. For example, 120,000 transactions in 1 minute / 60 seconds = 2,000 average IOPS.

To determine the average throughput for your workload, take the total amount of transmitted data by combining the Ingress and Egress metrics (total throughput) and divide that by 60 seconds. For example, 1 GiB total throughput over 1 minute / 60 seconds = 17 MiB average throughput.

Monitor utilization by maximum IOPS and bandwidth (premium only)

Because Azure Premium file shares are billed on a provisioned model in which each GiB of storage capacity that you provision entitles you to more IOPS and throughput, it's often useful to determine maximum IOPS and bandwidth. Whereas throughput measures the actual amount of data successfully transmitted, bandwidth refers to the maximum data transfer rate.

With Azure Premium file shares, you can use Transactions by Max IOPS and Bandwidth by Max MiB/s metrics to display what your workload is achieving at peak times. Using these metrics to analyze your workload will help you understand true capability at scale, as well as establish a baseline to understand the impact of more throughput and IOPS so you can optimally provision your Azure Premium file share.

The following chart shows a workload that generated 2.63 million transactions over 1 hour. When 2.63 million transactions is divided by 3,600 seconds, we get an average of 730 IOPS.

Screenshot showing the transactions generated by a workload over one hour.

Now when we compare the average IOPS against the Transactions by Max IOPS, we see that under peak load we were achieving 1,840 IOPS, which is a better representation of the workload's ability at scale.

Screenshot showing transactions by max IOPS.

Select Add metric to combine the Ingress and Egress metrics on a single graph. This displays that 76.2 GiB (78,028 MiB) was transferred over one hour, which gives us an average throughput of 21.67 MiB over that same hour.

Screenshot showing how to combine ingress and egress metrics into a single graph.

Compared against the Bandwidth by Max MiB/s, we achieved 123 MiB/s at peak.

Screenshot showing bandwidth by max MIBS.