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Hubble - Network, Service & Security Observability for Kubernetes using eBPF

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Network, Service & Security Observability for Kubernetes

What is Hubble?

Hubble is a fully distributed networking and security observability platform for cloud native workloads. It is built on top of Cilium and eBPF to enable deep visibility into the communication and behavior of services as well as the networking infrastructure in a completely transparent manner.

Hubble can answer questions such as:

Service dependencies & communication map:

  • What services are communicating with each other? How frequently? What does the service dependency graph look like?
  • What HTTP calls are being made? What Kafka topics does a service consume from or produce to?

Operational monitoring & alerting:

  • Is any network communication failing? Why is communication failing? Is it DNS? Is it an application or network problem? Is the communication broken on layer 4 (TCP) or layer 7 (HTTP)?
  • Which services have experienced a DNS resolution problems in the last 5 minutes? Which services have experienced an interrupted TCP connection recently or have seen connections timing out? What is the rate of unanswered TCP SYN requests?

Application monitoring:

  • What is the rate of 5xx or 4xx HTTP response codes for a particular service or across all clusters?
  • What is the 95th and 99th percentile latency between HTTP requests and responses in my cluster? Which services are performing the worst? What is the latency between two services?

Security observability:

  • Which services had connections blocked due to network policy? What services have been accessed from outside the cluster? Which services have resolved a particular DNS name?

Why Hubble?

The Linux kernel technology eBPF is enabling visibility into systems and applications at a granularity and efficiency that was not possible before. It does so in a completely transparent way, without requiring the application to change or for the application to hide information. By building on top of Cilium, Hubble can leverage eBPF for visibility. By leveraging eBPF, all visibility is programmable and allows for a dynamic approach that minimizes overhead while providing deep and detailed insight where required. Hubble has been created and specifically designed to make best use of these new eBPF powers.

Releases

The Hubble CLI is backward compatible with all supported Cilium releases. For this reason, only the latest Hubble CLI version is maintained.

Version Release Date Maintained Supported Cilium Version Artifacts
v1.16 2024-11-21 (v1.16.4) Yes Cilium 1.16 and older GitHub Release

Component Stability

Hubble project consists of several components (see Architecture section).

While the core Hubble components have been running in production in multiple environments, new components continue to emerge as the project grows and expands in scope.

Some components, due to their relatively young age, are still considered beta and have to be used with caution in critical production workloads.

Component Area State
Hubble CLI Core Stable
Hubble Server Core Stable
Hubble Metrics Core Stable
Hubble Relay Multinode Stable
Hubble UI UI Beta

Architecture

Hubble Architecture

Getting Started

Features

Service Dependency Graph

Troubleshooting microservices application connectivity is a challenging task. Simply looking at "kubectl get pods" does not indicate dependencies between each service or external APIs or databases.

Hubble enables zero-effort automatic discovery of the service dependency graph for Kubernetes Clusters at L3/L4 and even L7, allowing user-friendly visualization and filtering of those dataflows as a Service Map.

See Hubble Service Map Tutorial for more examples.

Service Map

Metrics & Monitoring

The metrics and monitoring functionality provides an overview of the state of systems and allow to recognize patterns indicating failure and other scenarios that require action. The following is a short list of example metrics, for a more detailed list of examples, see the Metrics Documentation.

Networking Behavior

Networking

Network Policy Observation

Network Policy

HTTP Request/Response Rate & Latency

HTTP

DNS Request/Response Monitoring

DNS

Flow Visibility

Flow visibility provides visibility into flow information on the network and application protocol level. This enables visibility into individual TCP connections, DNS queries, HTTP requests, Kafka communication, and much more.

DNS Resolution

Identifying pods which have received DNS response indicating failure:

hubble observe --since=1m -t l7 -o json \
   | jq 'select(.l7.dns.rcode==3) | .destination.namespace + "/" + .destination.pod_name' \
   | sort | uniq -c | sort -r
  42 "starwars/jar-jar-binks-6f5847c97c-qmggv"

Successful query & response:

starwars/x-wing-bd86d75c5-njv8k            kube-system/coredns-5c98db65d4-twwdg      DNS Query deathstar.starwars.svc.cluster.local. A
kube-system/coredns-5c98db65d4-twwdg       starwars/x-wing-bd86d75c5-njv8k           DNS Answer "10.110.126.213" TTL: 3 (Query deathstar.starwars.svc.cluster.local. A)

Non-existent domain:

starwars/jar-jar-binks-789c4b695d-ltrzm    kube-system/coredns-5c98db65d4-f4m8n      DNS Query unknown-galaxy.svc.cluster.local. A
starwars/jar-jar-binks-789c4b695d-ltrzm    kube-system/coredns-5c98db65d4-f4m8n      DNS Query unknown-galaxy.svc.cluster.local. AAAA
kube-system/coredns-5c98db65d4-twwdg       starwars/jar-jar-binks-789c4b695d-ltrzm   DNS Answer RCode: Non-Existent Domain TTL: 4294967295 (Query unknown-galaxy.starwars.svc.cluster.local. A)
kube-system/coredns-5c98db65d4-twwdg       starwars/jar-jar-binks-789c4b695d-ltrzm   DNS Answer RCode: Non-Existent Domain TTL: 4294967295 (Query unknown-galaxy.starwars.svc.cluster.local. AAAA)

HTTP Protocol

Successful request & response with latency information:

starwars/x-wing-bd86d75c5-njv8k:53410      starwars/deathstar-695d8f7ddc-lvj84:80    HTTP/1.1 GET https://deathstar/
starwars/deathstar-695d8f7ddc-lvj84:80     starwars/x-wing-bd86d75c5-njv8k:53410     HTTP/1.1 200 1ms (GET https://deathstar/)

TCP/UDP Packets

Successful TCP connection:

starwars/x-wing-bd86d75c5-njv8k:53410      starwars/deathstar-695d8f7ddc-lvj84:80    TCP Flags: SYN
deathstar.starwars.svc.cluster.local:80    starwars/x-wing-bd86d75c5-njv8k:53410     TCP Flags: SYN, ACK
starwars/x-wing-bd86d75c5-njv8k:53410      starwars/deathstar-695d8f7ddc-lvj84:80    TCP Flags: ACK, FIN
deathstar.starwars.svc.cluster.local:80    starwars/x-wing-bd86d75c5-njv8k:53410     TCP Flags: ACK, FIN

Connection timeout:

starwars/r2d2-6694d57947-xwhtz:60948   deathstar.starwars.svc.cluster.local:8080     TCP Flags: SYN
starwars/r2d2-6694d57947-xwhtz:60948   deathstar.starwars.svc.cluster.local:8080     TCP Flags: SYN
starwars/r2d2-6694d57947-xwhtz:60948   deathstar.starwars.svc.cluster.local:8080     TCP Flags: SYN

Network Policy Behavior

Denied connection attempt:

starwars/enterprise-5775b56c4b-thtwl:37800   starwars/deathstar-695d8f7ddc-lvj84:80(http)   Policy denied (L3)   TCP Flags: SYN
starwars/enterprise-5775b56c4b-thtwl:37800   starwars/deathstar-695d8f7ddc-lvj84:80(http)   Policy denied (L3)   TCP Flags: SYN
starwars/enterprise-5775b56c4b-thtwl:37800   starwars/deathstar-695d8f7ddc-lvj84:80(http)   Policy denied (L3)   TCP Flags: SYN

Specifying Raw Flow Filters

Hubble supports extensive set of filtering options that can be specified as a combination of allowlist and denylist. Hubble applies these filters as follows:

for each flow:
  if flow does not match any of the allowlist filters:
    continue
  if flow matches any of the denylist filters:
    continue
  send flow to client

You can pass these filters to hubble observe command as JSON-encoded FlowFilters. For example, to observe flows that match the following conditions:

  • Either the source or destination identity contains k8s:io.kubernetes.pod.namespace=kube-system or reserved:host label, AND

  • Neither the source nor destination identity contains k8s:k8s-app=kube-dns label:

    hubble observe \
      --allowlist '{"source_label":["k8s:io.kubernetes.pod.namespace=kube-system","reserved:host"]}' \
      --allowlist '{"destination_label":["k8s:io.kubernetes.pod.namespace=kube-system","reserved:host"]}' \
      --denylist '{"source_label":["k8s:k8s-app=kube-dns"]}' \
      --denylist '{"destination_label":["k8s:k8s-app=kube-dns"]}'
    

Alternatively, you can also specify these flags as HUBBLE_{ALLOWLIST,DENYLIST} environment variables:

cat > allowlist.txt <<EOF
{"source_label":["k8s:io.kubernetes.pod.namespace=kube-system","reserved:host"]}
{"destination_label":["k8s:io.kubernetes.pod.namespace=kube-system","reserved:host"]}
EOF

cat > denylist.txt <<EOF
{"source_label":["k8s:k8s-app=kube-dns"]}
{"destination_label":["k8s:k8s-app=kube-dns"]}
EOF

HUBBLE_ALLOWLIST=$(cat allowlist.txt)
HUBBLE_DENYLIST=$(cat denylist.txt)
export HUBBLE_ALLOWLIST
export HUBBLE_DENYLIST

hubble observe

Note that --allowlist and --denylist filters get included in the request in addition to regular flow filters like --label or --namespace. Use --print-raw-filters flag to verify the exact filters that the Hubble CLI generates. For example:

% hubble observe --print-raw-filters \
    -t drop \
    -n kube-system \
    --not --label "k8s:k8s-app=kube-dns" \
    --allowlist '{"source_label":["k8s:k8s-app=my-app"]}'
allowlist:
- '{"source_pod":["kube-system/"],"event_type":[{"type":1}]}'
- '{"destination_pod":["kube-system/"],"event_type":[{"type":1}]}'
- '{"source_label":["k8s:k8s-app=my-app"]}'
denylist:
- '{"source_label":["k8s:k8s-app=kube-dns"]}'
- '{"destination_label":["k8s:k8s-app=kube-dns"]}'

The output YAML can be saved to a file and passed to hubble observe command with --config flag. For example:

% hubble observe --print-raw-filters --allowlist '{"source_label":["k8s:k8s-app=my-app"]}' > filters.yaml
% hubble observe --config ./filters.yaml

Community

Join the Cilium Slack #hubble channel to chat with Cilium Hubble developers and other Cilium / Hubble users. This is a good place to learn about Hubble and Cilium, ask questions, and share your experiences.

Learn more about Cilium.

Authors

Hubble is an open source project licensed under the Apache License. Everybody is welcome to contribute. The project is following the Governance Rules of the Cilium project. See CONTRIBUTING for instructions on how to contribute and details of the Code of Conduct.