Overview
This guide provides guidelines on what to monitor and how to monitor an Apigee Hybrid deployment. It is intended for hybrid cluster administrators and Org admins.
If you are new to Google Cloud monitoring, please refer to Google Cloud Monitoring documentation for: Create charts with Metrics Explorer and How alerting works.
Apigee Hybrid clusters provide SLI (Service Level Indicator) metrics to help you understand how application and system services are performing at any given time. You can view a complete list of Available metrics.
Google Cloud Monitoring uses Resource Type to identify every SLI metric. There are three common Resource Types used for all Apigee Hybrid metrics.
k8s_container
for system level metrics.Proxy
for Apigee API Proxy metrics.Target
for Apigee API Target metrics
The Resource Types have common labels that apply to all their associated metrics. For example,
all the metrics with k8s_container
resource type have cluster_name
,
pod_name
, and container_name
labels available to use, in addition to
the metrics labels. A combination of Resource Type labels and metrics labels should be used to
effectively monitor cluster health and performance.
Alert threshold: In a perfect world, alerting thresholds would be obvious and the provided documentation would list the values that should trigger alerts. In reality, it is less obvious for the Apigee to define - what is acceptable performance and what is a dangerous resource utilization of services and infrastructures. The alert threshold values will vary greatly depending on particular traffic patterns and SLO/SLA agreements.
An Alert threshold optimization and determination is an on-going process as it can change with the service and infrastructure usage. Use Warning and Critical threshold for notifications and alerting.
- Healthy: Value is less than the warning threshold.
- Concerning: Value greater than the warning threshold, but value is less than the Critical threshold.
- Critical: Value > Critical threshold.
Customers should use the tools provided to determine the optimal threshold, whether it's the Cloud Monitoring dashboards that customers can create with the MQL provided below or the Apigee's analytics, to identify what "normal" looks like and then tune the alerts thresholds accordingly.
Hybrid cluster monitoring can be categorized into four different general groups, for example Traffic, Database, Apigee control plane, and infrastructure monitoring. The following sections describe these groups in detail:
Traffic
The Apigee Proxy and Target SLI metrics provide request/response counts and latencies for API Proxy and Targets. The Apigee Policy latency SLI metric provides policy response latencies. These SLI metrics provide coverage for monitoring the Apigee API traffic.
Request Rate
Proxy request count
Use case: Use the proxy/request_count to monitor the proxy request count. The proxy/request_count chart displays the request rate for proxies. This chart is useful to identify which Proxy is receiving a higher request rate, request rate patterns and any abnormal spike in request calls for a particular proxy. Any unexpected abnormal spike in API traffic could be a security concern around a bot or attack on API proxies. Similarly, a large drop in overall traffic cloud indicates issues with clients or connectivity from Apigee upstream components.
Resource types | Proxy |
Metric | proxy/request_count |
Group By | method and all Proxy resource type labels |
Aggregator | sum |
Alert consideration | Events like abnormal request_count spike/drop alerts |
Alert threshold | None |
Cloud Monitoring dashboard MQL query:
fetch apigee.googleapis.com/Proxy | metric 'apigee.googleapis.com/proxy/request_count' | align rate(1m) | every 1m | group_by [metric.method], [value_request_count_aggregate: aggregate(value.request_count)] |
Target request count
Use case: Use the target/request_count to monitor the Apigee runtime target request count. The target/request_count chart displays the request rate received by the Apigee target. This chart may be useful to see which target is getting a higher request rate, request rate pattern and any abnormal spike in request calls for a particular target.
Resource types | Target |
Metric | target/request_count |
Group By | method and all Target resource type labels |
Aggregator | sum |
Alert consideration | Events like abnormal request_count spike/drop alerts |
Alert threshold | None |
Cloud Monitoring dashboard MQL query:
fetch apigee.googleapis.com/Target | metric 'apigee.googleapis.com/target/request_count' | align rate(1m) | every 1m | group_by [metric.method, metric.type, metric.endpoint], [value_request_count_aggregate: aggregate(value.request_count)] |
Error Rate
Proxy error response count
Use case: Use the proxy/response_count to monitor the proxy error response rate. The proxy/response_count chart displays the request rate for API Proxy. This chart is useful to understand which proxy is getting a higher request error rate or any abnormal error spike in request calls for a particular proxy.
Resource types | Proxy |
Metric | proxy/response_count |
Filter By | response_code != 200
|
Group By | method, response_code , fault_code ,
fault_source , apigee_fault ,
and all Proxy
resource type labels |
Aggregator | sum |
Alert consideration | The Proxy response error ratio: Total response errors / Total response count.
|
Alert threshold | Depends on the SLO for the installation. Production and non-prodroduction installations may have different thresholds. For example: For production, trigger an event notification if the proxy response 500 error ratio is 5% for 5 mins. |
Cloud Monitoring dashboard MQL query:
fetch apigee.googleapis.com/Proxy | metric 'apigee.googleapis.com/proxy/response_count' | filter (metric.response_code != 200) | align rate(1m) | every 1m | group_by [metric.method, metric.response_code, metric.fault_code, metric.fault_source, metric.apigee_fault], [value_response_count_aggregate: aggregate(value.response_count)] |
|
Example Google Cloud operation Alert policy MQL:
fetch apigee.googleapis.com/Proxy::apigee.googleapis.com/proxy/response_count | { filter (metric.response_code == 500) ; ident } | group_by drop[metric.response_code ], sliding(5m), .sum | ratio | scale '%' | every (30s) | condition val() > 5'%' |
Target error response count
Use case: Use the target/response_count to monitor the API Target error response rate. The target/response_count chart displays the request rate from API Target. This chart may be useful to identify which target is getting a higher request rate or any abnormal errors spike in request calls.
Resource types | Target |
Metric | target/response_count |
Filter By | response_code != 200
|
Group By | method and all Target resource type labels |
Aggregator | sum |
Alert consideration | The Proxy response error ratio, for example: Total response errors / Total response count.
|
Alert threshold | Depends on the SLO for the installation. For example: For production, trigger an event notification, If the target response error ratio is 5% for 3 mins. |
Cloud Monitoring dashboard MQL query:
fetch apigee.googleapis.com/Target | metric 'apigee.googleapis.com/target/response_count' | filter (metric.response_code != 200) | align rate(1m) | every 1m | group_by [metric.method, metric.type, metric.endpoint, metric.response_code], [value_response_count_aggregate: aggregate(value.response_count)] |
Latencies
Proxy latencies
Use case: Use the proxy/latencies to monitor the latencies of all API proxy responses to a request. The proxy/latencies chart may be useful to identify the latency in Apigee API proxy to your overall API proxy request latency.
Resource types | Proxy |
Metric | proxy/latencies |
Group By | method and all Proxy resource type labels |
Aggregator | p99 (99th percentile) |
Alert consideration | High value of p99 latency percentile. |
Alert threshold | Depends on the SLO for the installation. For example: For production, trigger an event notification, If the value of proxy p99 latency percentile is 5 seconds for 5 mins. |
Cloud Monitoring dashboard MQL query:
fetch apigee.googleapis.com/Proxy | metric 'apigee.googleapis.com/proxy/latencies' | align delta(1m) | every 1m | group_by [metric.method], [value_latencies_percentile: percentile(value.latencies, 99)] |
Target latencies
Use case: Use the target/latencies to monitor the latencies of all API proxy target responses to a request. The target/latencies chart identifies the total amount of time for the Apigee API proxy target to respond to a request. This value does not include the Apigee API proxy overhead.
Resource types | Target |
Metric | target/latencies |
Group By | method, percentile, and all Target resource type labels |
Aggregator | p99 (99th percentile) |
Alert consideration | High value of p99 latency percentile. |
Alert threshold | Depends on the SLO for the installation. For example: For production, trigger an event notification, If the value of target p99 latency percentile is 5 seconds for 5 mins. |
Cloud Monitoring dashboard MQL query:
fetch apigee.googleapis.com/Target | metric 'apigee.googleapis.com/target/latencies' | align delta(1m) | every 1m | group_by [metric.method], [value_latencies_percentile: percentile(value.latencies, 99)] |
Database
Cassandra
Apigee Cassandra database service has multiple Cassandra SLI metrics. These SLI metrics can provide comprehensive monitoring for the Apigee Cassandra service. At a minimum, along with Cassandra resource usage (CPU, Mem, and disk volume), the client's read and write request latency should be monitored for Cassandra service health.
Cassandra read request rate
Use case: The cassandra/clientrequest_rate (with scope=Read) SLI metric provides insight into Cassandra services read request average rate at any given time. This metric helps with the understanding of clients' read request activity level trends.
Resource types | k8s_container |
Metric | cassandra/clientrequest_rate |
Filter By | scope = Read and unit = OneMinuteRate |
Group By | scope, unit, and all k8s_container resource type labels |
Aggregator | sum |
Alert consideration | For any potential problems or significant change in clients query patterns; for example a sudden, unexpected spike or drop in read request rate. |
Alert threshold | None |
Cloud Monitoring dashboard MQL query:
fetch k8s_container | metric 'apigee.googleapis.com/cassandra/clientrequest_latency' | filter (metric.scope == 'Read' && metric.unit == 'OneMinuteRate') | group_by 1m, [value_clientrequest_latency_mean: mean(value.clientrequest_latency)] | every 1m | group_by [metric.scope, metric.unit], [value_clientrequest_latency_mean_aggregate: aggregate(value_clientrequest_latency_mean)] |
Cassandra write request rate
Use case: The cassandra/clientrequest_rate (with scope=Write) SLI metric provides insight into Cassandra services write request average rate at any given time. This metric helps with the understanding of clients' write request activity level trends.
Resource types | k8s_container |
Metric | cassandra/clientrequest_rate |
Filter By | scope = Read and unit = OneMinuteRate |
Group By | scope, unit, and all k8s_container resource type labels |
Aggregator | sum |
Alert consideration | For any potential problems or significant change in clients query patterns; for example a sudden, unexpected spike or drop in write requests that warrant further investigation. |
Alert threshold | None |
Cloud Monitoring dashboard MQL query:
fetch k8s_container | metric 'apigee.googleapis.com/cassandra/clientrequest_latency' | filter (metric.scope == 'Write' && metric.unit == 'OneMinuteRate') | group_by 1m, [value_clientrequest_latency_mean: mean(value.clientrequest_latency)] | every 1m | group_by [metric.scope, metric.unit], [value_clientrequest_latency_mean_aggregate: aggregate(value_clientrequest_latency_mean)] |
Cassandra read request latency
Use case: The cassandra/clientrequest_latency (with scope=Read) SLI metric provides Cassandra services read request latency (at 99th percentile, 95th percentile, or 75th percentile). These metrics help with the overall view of Cassandra performance and can indicate any changes in usage patterns or a problem manifesting itself over time.
Resource types | k8s_container |
Metric | cassandra/clientrequest_latency |
Filter By | scope = Read and unit = 99thPercentile |
Group By | scope, unit, and all k8s_container resource type labels |
Aggregator | sum |
Alert consideration | If read requests latency SLI consistently shows 99th percentile latency trending upwards continuously. |
Alert threshold | Depends on your SLO for Cassandra services. For example: In production, trigger an event notification if the read clientrequest_latency value of 99thPercentile is 5 seconds for 3 minutes |
Cloud Monitoring dashboard MQL query:
fetch k8s_container | metric 'apigee.googleapis.com/cassandra/clientrequest_latency' | filter (metric.scope == 'Read' && metric.unit == '99thPercentile') | group_by 1m, [value_clientrequest_latency_mean: mean(value.clientrequest_latency)] | every 1m | group_by [metric.scope, metric.unit], [value_clientrequest_latency_mean_aggregate: aggregate(value_clientrequest_latency_mean)] |
Cassandra write request latency
Use case: The cassandra/clientrequest_latency (with scope=Write) SLI metric provides Cassandra services write request latency (at 99th percentile, 95th percentile, or 75th percentile). These metrics help with the overall view of Cassandra performance and can indicate any changes in usage patterns or a problem manifesting itself over time.
Resource types | k8s_container |
Metric | cassandra/clientrequest_latency |
Filter By | scope = Write and unit = 99thPercentile |
Group By | scope, unit, and all k8s_container resource type labels |
Aggregator | sum |
Alert consideration | If write requests latency SLI consistently shows 99th percentile latency trending upwards continuously. |
Alert threshold | Depends on your SLO for Cassandra services. For example: in production, trigger an event notification if the write clientrequest_latency value of 99thPercentile is 5 seconds for 3 minutes |
Cloud Monitoring dashboard MQL query:
fetch k8s_container | metric 'apigee.googleapis.com/cassandra/clientrequest_latency' | filter (metric.scope == 'Write' && metric.unit == '99thPercentile') | group_by 1m, [value_clientrequest_latency_mean: mean(value.clientrequest_latency)] | every 1m | group_by [metric.scope, metric.unit], [value_clientrequest_latency_mean_aggregate: aggregate(value_clientrequest_latency_mean)] |
Apigee Control plane
Apigee Synchronizer service SLI metrics provide request and response counts and latencies between the Apigee control plane and the Hybrid runtime plane. Synchronizer instances running in the runtime plane are expected to poll the control plane regularly, download the contracts and make the same available to local runtime instances.
Request rate
Upstream request count
Use case: The upstream/request_count metrics indicate the number of requests made by the Synchronizer service to the Apigee control plane.
Resource types | k8s_container |
Metric | upstream/request_count |
Filter By | container_name = apigee-synchronizer and type = CONTRACT |
Group By | method, type, container_name, and all k8s_container resource type labels |
Aggregator | sum |
Alert consideration | Use this for traffic abnormalities, such as an abnormal request_count spike or drop alert. |
Alert threshold | None |
Cloud Monitoring dashboard MQL query:
fetch k8s_container | metric 'apigee.googleapis.com/upstream/request_count' | filter (resource.container_name == 'apigee-synchronizer') && (metric.type == 'CONTRACT') | align rate(1m) | every 1m | group_by [metric.method, metric.type, resource.container_name], [value_request_count_aggregate: aggregate(value.request_count)] |
Error rate
Upstream response count
Use case: The upstream/response_count SLI metric provides the number of responses the Synchronizer services received from the Apigee control plane. This chart may be useful to identify any connectivity or configuration issue between the Apigee Hybrid Runtime plane and Control plane.
Resource types | k8s_container |
Metric | upstream/request_count |
Filter By | method, response_type, container_name, and all k8s_container resource type labels |
Group By | |
Aggregator | sum |
Alert consideration | If there are errors in upstream/response_count metrics with non-200 response codes returned from Apigee Control plane, then its required further investigation into those errors. |
Alert threshold | Depends on your SLO for Cassandra services. For example: in production, trigger an event notification if Synchronizer experiences greater than one response_code error every three min. |
Cloud Monitoring dashboard MQL query:
fetch k8s_container | metric 'apigee.googleapis.com/upstream/response_count' | filter (resource.container_name == 'apigee-synchronizer') && (metric.response_code != '200' && metric.type == 'CONTRACT') | align rate(1m) | every 1m | group_by [metric.method, metric.response_code, metric.type, resource.container_name], [value_response_count_aggregate: aggregate(value.response_count)] |
Infrastructure
GKE and other Kubernetes platforms provide system-level SLI metrics. The SLI metrics labels can be filtered and grouped to monitor a specific container and its resource usage. To monitor the Apigee Runtime cluster infrastructure health and availability, a cluster admin can monitor the container and pod common resource use such as CPU, Mem, disk, and container restart counts. Please follow GKE documentation for more details on available metrics and labels.
The following table lists some of the services and the containers you can monitor for each service.
Service Name | Container Name |
---|---|
Cassandra | apigee-cassandra |
Message Processor(MP) | apigee-runtime |
Synchronizer | apigee-synchronizer |
Telemetry | apigee-prometheus-app apigee-prometheus-proxy apigee-prometheus-agg apigee-stackdriver-exporter |
Resource types | k8s_container |
Metric | kubernetes.io/container/restart_count |
Filter By | namespace_name = apigee and container_name =~ .*cassandra.* |
Group By | cluster_name, namespace_name, pod_name, container_name, and all k8s_container resource type labels |
Aggregator | sum |
Alert consideration | If a container is restarting frequently, further investigation is needed for the root
cause. There are multiple reasons a container can restart, such as OOMKilled ,
data disk full, and configuration issues, to name a few. |
Alert threshold | Depends on the SLO for the installation. For example: For production, trigger an event notification, If a container restarts more often than 5 times within 30 minutes. |
Cloud Monitoring dashboard MQL query:
fetch k8s_container | metric 'kubernetes.io/container/restart_count' | filter (resource.container_name =~ '.*cassandra.*' && resource.namespace_name == 'apigee') | align rate(1m) | every 1m | group_by [resource.cluster_name, resource.namespace_name, resource.pod_name, resource.container_name], [value_restart_count_aggregate: aggregate(value.restart_count)] |
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Last updated 2024-11-19 UTC.