Local rate limiting of L4 connections

Configuring local rate limiting for L4 connections

This guide demonstrates how to configure rate limiting for L4 TCP connections destined to a target host that is a part of a FSM managed service mesh.

Prerequisites

  • Kubernetes cluster running Kubernetes v1.19.0 or greater.
  • Have FSM installed.
  • Have kubectl available to interact with the API server.
  • Have fsm CLI available for managing the service mesh.
  • FSM version >= v1.2.0.

Demo

The following demo shows a client fortio-client sending TCP traffic to the fortio TCP echo service. The fortio service echoes TCP messages back to the client. We will see the impact of applying local TCP rate limiting policies targeting the fortio service to control the throughput of traffic destined to the service backend.

  1. For simplicity, enable permissive traffic policy mode so that explicit SMI traffic access policies are not required for application connectivity within the mesh.

    export FSM_NAMESPACE=fsm-system # Replace fsm-system with the namespace where FSM is installed
    kubectl patch meshconfig fsm-mesh-config -n "$FSM_NAMESPACE" -p '{"spec":{"traffic":{"enablePermissiveTrafficPolicyMode":true}}}'  --type=merge
    
  2. Deploy the fortio TCP echo service in the demo namespace after enrolling its namespace to the mesh. The fortio TCP echo service runs on port 8078.

    # Create the demo namespace
    kubectl create namespace demo
    
    # Add the namespace to the mesh
    fsm namespace add demo
    
    # Deploy fortio TCP echo in the demo namespace
    kubectl apply -f https://raw.githubusercontent.com/flomesh-io/fsm-docs/main/manifests/samples/fortio/fortio.yaml -n demo
    

    Confirm the fortio service pod is up and running.

    kubectl get pods -n demo
    NAME                            READY   STATUS    RESTARTS   AGE
    fortio-c4bd7857f-7mm6w          2/2     Running   0          22m
    
  3. Deploy the fortio-client app in the demo namespace. We will use this client to send TCP traffic to the fortio TCP echo service deployed previously.

    kubectl apply -f https://raw.githubusercontent.com/flomesh-io/fsm-docs/main/manifests/samples/fortio/fortio-client.yaml -n demo
    

    Confirm the fortio-client pod is up and running.

    NAME                            READY   STATUS    RESTARTS   AGE
    fortio-client-b9b7bbfb8-prq7r   2/2     Running   0          7s
    
  4. Confirm the fortio-client app is able to successfully make TCP connections and send data to the frotio TCP echo service on port 8078. We call the fortio service with 3 concurrent connections (-c 3) and send 10 calls (-n 10).

    fortio_client="$(kubectl get pod -n demo -l app=fortio-client -o jsonpath='{.items[0].metadata.name}')"
    
    kubectl exec "$fortio_client" -n demo -c fortio-client -- fortio load -qps -1 -c 3 -n 10 tcp://fortio.demo.svc.cluster.local:8078
    
    Fortio 1.32.3 running at -1 queries per second, 8->8 procs, for 10 calls: tcp://fortio.demo.svc.cluster.local:8078
    20:41:47 I tcprunner.go:238> Starting tcp test for tcp://fortio.demo.svc.cluster.local:8078 with 3 threads at -1.0 qps
    Starting at max qps with 3 thread(s) [gomax 8] for exactly 10 calls (3 per thread + 1)
    20:41:47 I periodic.go:723> T001 ended after 34.0563ms : 3 calls. qps=88.0894283876992
    20:41:47 I periodic.go:723> T000 ended after 35.3117ms : 4 calls. qps=113.2769025563765
    20:41:47 I periodic.go:723> T002 ended after 44.0273ms : 3 calls. qps=68.13954069406937
    Ended after 44.2097ms : 10 calls. qps=226.19
    Aggregated Function Time : count 10 avg 0.01096615 +/- 0.01386 min 0.001588 max 0.0386716 sum 0.1096615
    # range, mid point, percentile, count
    >= 0.001588 <= 0.002 , 0.001794 , 40.00, 4
    > 0.002 <= 0.003 , 0.0025 , 60.00, 2
    > 0.003 <= 0.004 , 0.0035 , 70.00, 1
    > 0.025 <= 0.03 , 0.0275 , 90.00, 2
    > 0.035 <= 0.0386716 , 0.0368358 , 100.00, 1
    # target 50% 0.0025
    # target 75% 0.02625
    # target 90% 0.03
    # target 99% 0.0383044
    # target 99.9% 0.0386349
    Error cases : no data
    Sockets used: 3 (for perfect no error run, would be 3)
    Total Bytes sent: 240, received: 240
    tcp OK : 10 (100.0 %)
    All done 10 calls (plus 0 warmup) 10.966 ms avg, 226.2 qps
    

    As seen above, all the TCP connections from the fortio-client pod succeeded.

    Total Bytes sent: 240, received: 240
    tcp OK : 10 (100.0 %)
    All done 10 calls (plus 0 warmup) 10.966 ms avg, 226.2 qps
    
  5. Next, apply a local rate limiting policy to rate limit L4 TCP connections to the fortio.demo.svc.cluster.local service to 1 connection per minute.

    kubectl apply -f - <<EOF
    apiVersion: policy.flomesh.io/v1alpha1
    kind: UpstreamTrafficSetting
    metadata:
      name: tcp-rate-limit
      namespace: demo
    spec:
      host: fortio.demo.svc.cluster.local
      rateLimit:
        local:
          tcp:
            connections: 1
            unit: minute
    EOF
    

    Confirm no traffic has been rate limited yet by examining the stats on the fortio backend pod.

    fortio_server="$(kubectl get pod -n demo -l app=fortio -o jsonpath='{.items[0].metadata.name}')"
    fsm proxy get stats "$fortio_server" -n demo | grep fortio.*8078.*rate_limit
    
    no matches found: fortio.*8078.*rate_limit
    
  6. Confirm TCP connections are rate limited.

    kubectl exec "$fortio_client" -n demo -c fortio-client -- fortio load -qps -1 -c 3 -n 10 tcp://fortio.demo.svc.cluster.local:8078
    
    Fortio 1.32.3 running at -1 queries per second, 8->8 procs, for 10 calls: tcp://fortio.demo.svc.cluster.local:8078
    20:49:38 I tcprunner.go:238> Starting tcp test for tcp://fortio.demo.svc.cluster.local:8078 with 3 threads at -1.0 qps
    Starting at max qps with 3 thread(s) [gomax 8] for exactly 10 calls (3 per thread + 1)
    20:49:38 E tcprunner.go:203> [2] Unable to read: read tcp 10.244.1.19:59244->10.96.83.254:8078: read: connection reset by peer
    20:49:38 E tcprunner.go:203> [0] Unable to read: read tcp 10.244.1.19:59246->10.96.83.254:8078: read: connection reset by peer
    20:49:38 E tcprunner.go:203> [2] Unable to read: read tcp 10.244.1.19:59258->10.96.83.254:8078: read: connection reset by peer
    20:49:38 E tcprunner.go:203> [0] Unable to read: read tcp 10.244.1.19:59260->10.96.83.254:8078: read: connection reset by peer
    20:49:38 E tcprunner.go:203> [2] Unable to read: read tcp 10.244.1.19:59266->10.96.83.254:8078: read: connection reset by peer
    20:49:38 I periodic.go:723> T002 ended after 9.643ms : 3 calls. qps=311.1065021258944
    20:49:38 E tcprunner.go:203> [0] Unable to read: read tcp 10.244.1.19:59268->10.96.83.254:8078: read: connection reset by peer
    20:49:38 E tcprunner.go:203> [0] Unable to read: read tcp 10.244.1.19:59274->10.96.83.254:8078: read: connection reset by peer
    20:49:38 I periodic.go:723> T000 ended after 14.8212ms : 4 calls. qps=269.8836801338623
    20:49:38 I periodic.go:723> T001 ended after 20.3458ms : 3 calls. qps=147.45057948077735
    Ended after 20.5468ms : 10 calls. qps=486.69
    Aggregated Function Time : count 10 avg 0.00438853 +/- 0.004332 min 0.0014184 max 0.0170216 sum 0.0438853
    # range, mid point, percentile, count
    >= 0.0014184 <= 0.002 , 0.0017092 , 20.00, 2
    > 0.002 <= 0.003 , 0.0025 , 50.00, 3
    > 0.003 <= 0.004 , 0.0035 , 70.00, 2
    > 0.004 <= 0.005 , 0.0045 , 90.00, 2
    > 0.016 <= 0.0170216 , 0.0165108 , 100.00, 1
    # target 50% 0.003
    # target 75% 0.00425
    # target 90% 0.005
    # target 99% 0.0169194
    # target 99.9% 0.0170114
    Error cases : count 7 avg 0.0034268714 +/- 0.0007688 min 0.0024396 max 0.0047932 sum 0.0239881
    # range, mid point, percentile, count
    >= 0.0024396 <= 0.003 , 0.0027198 , 42.86, 3
    > 0.003 <= 0.004 , 0.0035 , 71.43, 2
    > 0.004 <= 0.0047932 , 0.0043966 , 100.00, 2
    # target 50% 0.00325
    # target 75% 0.00409915
    # target 90% 0.00451558
    # target 99% 0.00476544
    # target 99.9% 0.00479042
    Sockets used: 8 (for perfect no error run, would be 3)
    Total Bytes sent: 240, received: 72
    tcp OK : 3 (30.0 %)
    tcp short read : 7 (70.0 %)
    All done 10 calls (plus 0 warmup) 4.389 ms avg, 486.7 qps
    

    As seen above, only 30% of the 10 calls succeeded, while the remaining 70% was rate limitied. This is because we applied a rate limiting policy of 1 connection per minute at the fortio backend service, and the fortio-client was able to use 1 connection to make 3/10 calls, resulting in a 30% success rate.

    Examine the sidecar stats to further confirm this.

    fsm proxy get stats "$fortio_server" -n demo | grep 'fortio.*8078.*rate_limit'
    local_rate_limit.inbound_demo/fortio_8078_tcp.rate_limited: 7
    
  7. Next, let’s update our rate limiting policy to allow a burst of connections. Bursts allow a given number of connections over the baseline rate of 1 connection per minute defined by our rate limiting policy.

    kubectl apply -f - <<EOF
    apiVersion: policy.flomesh.io/v1alpha1
    kind: UpstreamTrafficSetting
    metadata:
      name: tcp-echo-limit
      namespace: demo
    spec:
      host: fortio.demo.svc.cluster.local
      rateLimit:
        local:
          tcp:
            connections: 1
            unit: minute
            burst: 10
    EOF
    
  8. Confirm the burst capability allows a burst of connections within a small window of time.

    kubectl exec "$fortio_client" -n demo -c fortio-client -- fortio load -qps -1 -c 3 -n 10 tcp://fortio.demo.svc.cluster.local:8078
    
    Fortio 1.32.3 running at -1 queries per second, 8->8 procs, for 10 calls: tcp://fortio.demo.svc.cluster.local:8078
    20:56:56 I tcprunner.go:238> Starting tcp test for tcp://fortio.demo.svc.cluster.local:8078 with 3 threads at -1.0 qps
    Starting at max qps with 3 thread(s) [gomax 8] for exactly 10 calls (3 per thread + 1)
    20:56:56 I periodic.go:723> T002 ended after 5.1568ms : 3 calls. qps=581.7561278312132
    20:56:56 I periodic.go:723> T001 ended after 5.2334ms : 3 calls. qps=573.2411052088509
    20:56:56 I periodic.go:723> T000 ended after 5.2464ms : 4 calls. qps=762.4275693809088
    Ended after 5.2711ms : 10 calls. qps=1897.1
    Aggregated Function Time : count 10 avg 0.00153124 +/- 0.001713 min 0.00033 max 0.0044054 sum 0.0153124
    # range, mid point, percentile, count
    >= 0.00033 <= 0.001 , 0.000665 , 70.00, 7
    > 0.003 <= 0.004 , 0.0035 , 80.00, 1
    > 0.004 <= 0.0044054 , 0.0042027 , 100.00, 2
    # target 50% 0.000776667
    # target 75% 0.0035
    # target 90% 0.0042027
    # target 99% 0.00438513
    # target 99.9% 0.00440337
    Error cases : no data
    Sockets used: 3 (for perfect no error run, would be 3)
    Total Bytes sent: 240, received: 240
    tcp OK : 10 (100.0 %)
    All done 10 calls (plus 0 warmup) 1.531 ms avg, 1897.1 qps
    

    As seen above, all the TCP connections from the fortio-client pod succeeded.

    Total Bytes sent: 240, received: 240
    tcp OK : 10 (100.0 %)
    All done 10 calls (plus 0 warmup) 1.531 ms avg, 1897.1 qps
    

    Further, examine the stats to confirm the burst allows additional connections to go through. The number of connections rate limited hasn’t increased since our previous rate limit test before we configured the burst setting.

    fsm proxy get stats "$fortio_server" -n demo | grep 'fortio.*8078.*rate_limit'
    local_rate_limit.inbound_demo/fortio_8078_tcp.rate_limited: 0
    

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