This page describes best practices for optimizing request latency and handling errors in the Cloud Healthcare API. Implement these practices as you plan and design your system architecture.
Google provides a service-level agreement (SLA) that defines the expected uptime of the Cloud Healthcare API service and how clients can handle errors. For more information, see Cloud Healthcare Service Level Agreement (SLA).
Implement retry logic and timeouts
To handle delays and errors caused by failed requests, implement appropriate retry logic and timeouts. When setting the timeout duration, allow sufficient time to do the following:
- Let the Cloud Healthcare API process the request.
- Determine if the error originated from the service or the client.
You can retry some errors, but others are non-retryable and persist across
multiple retries. For example, if the request data is incorrectly formatted,
the server responds with a
400 Bad Request status code. The request won't
succeed until you fix the data.
To handle these situations, you need to plan for final error states.
For more information on retry logic and timeouts, see Retry failed requests.
Handle errors at multiple layers
When middleware interacts with the Cloud Healthcare API, implement retry logic and timeouts in the client and middleware. If a client encounters errors past its retry limit, you must be able to identify if the error occurred in the client, the middleware, or the underlying Cloud Healthcare API service. This is especially important when planning for final error states.
Consider the following scenario:
- The middleware receives a
500 Internal Server Errorerror from the Cloud Healthcare API when sending a request.
- The middleware layer retries the request five more times, reaching its limit, and then stops retrying.
- The client receives a final
500 Internal Server Errorerror.
It's important to understand that the error originated in the Cloud Healthcare API, not the middleware. To simplify debugging, provide this information in the error returned to the client.
The following diagram shows a scenario where a middleware proxy receives
500 Internal Server Error errors when forwarding a request from a client to
the Cloud Healthcare API. The client and proxy both implement
error handling and retries.
Figure 1 shows the following steps:
- The client sends a valid request to the Cloud Healthcare API through a middleware proxy.
- The proxy forwards the request to the Cloud Healthcare API.
Cloud Healthcare API returns a
500 Internal Server Errorerror to the proxy. The proxy retries the request five more times until its retry limit is reached.
The proxy returns the final error state,
500 Internal Server Error, to the client.
Using the recommendations shown earlier, you can debug the final error state by having the proxy return the following error to the client:
Error with underlying FHIR store in Cloud Healthcare API after 5 retries: 500 Internal Server Error
Add any more information about the error returned from the Cloud Healthcare API.
Sometimes, the client or proxy receives
500 Internal Server Error errors
past their retry limits and can't retry again. In this case, a human
might need to intervene to diagnose if the error came from the proxy or the
Cloud Healthcare API.
Choose which errors to retry
Depending on your system's architecture, you can retry certain errors and ignore others. The following is a non-exhaustive list of retryable Cloud Healthcare API error codes:
408 Request Timeout
425 Too Early
429 Too Many Requests
500 Internal Server Error
502 Bad Gateway
503 Service Unavailable
504 Gateway Timeout
These errors typically don't occur at the same frequency, and some might never occur.
System architecture effects
Your system's architecture influences how and when you retry errors.
For example, in a direct client-to-server architecture, a client that receives
401 UNAUTHENTICATED error from the
Cloud Healthcare API can re-authenticate and retry its request.
Suppose a system has a middleware layer between the client and the Cloud Healthcare API. If the client authenticated correctly and an expired authentication token caused the issue, then the middleware must refresh the token and retry the request.
After analyzing final error states, you can adjust the errors your client retries based on your findings.
Plan for final error states
Even after implementing retry logic and timeouts, a client or middleware might receive errors until their retries are exhausted. The last error returned before retries and timeouts are exhausted is the final error state. You might encounter a final error state for data consistency errors.
Sometimes, a final error state requires human intervention. Try to implement a solution to resolve the final error state for a request. Otherwise, log the final error state so a human can review it.
Consider the following when planning how to handle final error states:
- Whether there are processing dependencies that need to stop if a FHIR transaction or bundle can't complete successfully.
- If many virtual machine (VM) instances start failing permanently, a client must report the requests that failed. After the problem is fixed, the client must retry the requests.
- Monitoring, alerting systems, and service-level objectives (SLOs) are necessary for ensuring the stability of your system. See Test and monitor for more information.
Plan for increased latency
The Cloud Healthcare API is a scalable and performant service, but request latency can still vary for the following reasons:
- Small differences between requests, even if they seem insignificant, can cause extra processing time.
- Similar requests might have different latencies. For example, two similar requests that add a record to data storage might have different latencies if one crosses a threshold that triggers an extra task, like allocating more storage.
- The Cloud Healthcare API handles many requests concurrently. The time when a client sends a request, measured in fractions of a second, might coincide with a time when the Cloud Healthcare API is under heavier load than usual.
- If a Cloud Healthcare API physical resource, such as a disk, is handling many requests, it needs to complete its queued tasks before handling other requests.
- Sometimes, the Cloud Healthcare API retries errors on the server-side, which can increase latency for clients.
- There might be multiple copies of data in different data centers in a regional or multi-regional location. If your requests are routed across multiple data centers, either on the original request or on a retry, there might be increased latency.
Plan using percentile latency
You can plan for increased latency by analyzing the percentile latency of your requests. The following examples describe the 50th percentile latency and the 99th percentile latency:
- The 50th percentile latency is the maximum latency, in seconds, for the fastest 50% of requests. For example, if the 50th percentile latency is 0.5 seconds, then the Cloud Healthcare API processed 50% of requests within 0.5 seconds. The 50th percentile latency is also called the "median latency".
- The 99th percentile latency is the maximum latency, in seconds, for the fastest 99% of requests. For example, if the 99th percentile latency is two seconds, then the Cloud Healthcare API processed 99% of requests within two seconds.
If you analyze the percentile latency over an interval when the Cloud Healthcare API only processed a few requests, the percentile latency might not be useful or indicative of overall performance because outlier requests can have a large influence.
For example, suppose a process in the Cloud Healthcare API processes 100 requests in 100 minutes. The 99th percentile latency for the 100 minutes would be based on the single slowest request. A latency measurement using a single request isn't sufficient for understanding if there are performance issues.
Gathering a larger request sample over a longer time period, like 24 hours, can provide more insight into the overall behavior of your system. You can use these samples to determine how your system responds to heavy traffic.