Difference between revisions of "Jq"
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* [https://github.com/mikefarah/yq yq] — a portable command-line YAML, JSON, XML, CSV and properties processor. | * [https://github.com/mikefarah/yq yq] — a portable command-line YAML, JSON, XML, CSV and properties processor. | ||
* [https://github.com/simeji/jid jid] — a JSON incremental digger. | * [https://github.com/simeji/jid jid] — a JSON incremental digger. | ||
+ | * [https://github.com/jrockway/kubectl-jq kubectl-jq] — kubectl plugin that works like <code>kubectl get</code> but runs everything through a JQ program you provide | ||
==External links== | ==External links== |
Latest revision as of 22:14, 25 January 2023
jq is a lightweight and flexible command-line JSON processor. jq is like sed for JSON data - you can use it to slice and filter and map and transform structured data with the same ease that sed, awk, grep, and friends let you play with text.
Contents
Example usage
$ cat azones.json
{ "availabilityZoneInfo": [ { "hosts": { "node-1.example.com": { "nova-compute": { "active": true, "available": true } }, "node-2.example.com": { "nova-compute": { "active": true, "available": true } } }, "zoneName": "az1", "zoneState": { "available": true } }, { "hosts": { "node-3.example.com": { "nova-compute": { "active": true, "available": true } }, "node-4.example.com": { "nova-compute": { "active": true, "available": true } } }, "zoneName": "az2", "zoneState": { "available": true } } ] }
- Capture just the availability zone names:
$ cat azones.json | jq '[.availabilityZoneInfo[] | .zoneName]'
[ "az1", "az2" ]
Or, for compact instead of pretty-printed output:
$ cat azones3.json | jq -c '[.availabilityZoneInfo[] | .zoneName]' ["az1","az2"]
- Capture just the hostname (e.g., "
node-1.example.com
") key for availability zone "az1":
$ cat azones.json | jq '[.availabilityZoneInfo[] | select(.zoneName == "az1") | {hosts: .hosts|keys}]'
[ { "hosts": [ "node-1.example.com", "node-2.example.com" ] } ]
Or, for a more script-friendly output:
$ cat azones.json | jq -cM '[.availabilityZoneInfo[] | select(.zoneName == "az1") | {hosts: .hosts|keys}]' | sed -e 's/["}\[]//g;s/\]//g;s/{hosts://g;s/,/ /g' #~OR~ $ foo=($(cat azones3.json | jq -cM '[.availabilityZoneInfo[] | select(.zoneName == "az1") | {hosts: .hosts|keys}]' | sed -e 's/["}\[]//g;s/\]//g;s/{hosts://g;s/,/ /g')) $ echo ${foo[0]} #=> node-1.example.com
- Get just the raw values:
$ echo '{ "packet_loss": [ {"ips": "10.0.0.10 10.0.0.11 10.0.0.12", "node-17": "3/3" }] }' | jq -r '[.packet_loss[] | .ips] | .[]' 10.0.0.10 10.0.0.11 10.0.0.12
Practical example
Here is how to print out all the OpenStack compute nodes in my example environment:
#!/bin/bash # AUTHOR: Christoph Champ <christoph.champ@gmail.com> # Requires jq 1.5+ JQ=$(which jq) OS_AUTH_URL=http://1.2.3.4:5000/v2.0/ OS_TENANT_NAME=admin OS_USERNAME=admin OS_PASSWORD=admin INFO=$(curl -sXPOST "${OS_AUTH_URL}/tokens" \ -H "Content-Type: application/json" \ -d "{\"auth\":{\"tenantName\":\"$OS_TENANT_NAME\",\"passwordCredentials\":\ {\"username\":\"$OS_USERNAME\",\"password\":\"$OS_PASSWORD\"}}}" | \ ${JQ} -crM '[.access.token.id + "," + (.access.serviceCatalog[] | select(.name == "nova") | .endpoints[].publicURL)] | .[]') TOKEN=${INFO%%,*} NOVA_ENDPOINT=${INFO#*,} IGNORE_ZONES="internal|nova" raw=$(curl -s -H "X-Auth-Token: ${TOKEN}" "${NOVA_ENDPOINT}/os-availability-zone/detail" | \ ${JQ} -crM '[.availabilityZoneInfo[].zoneName] | .[]' | \ grep -vE "(${IGNORE_ZONES})" | tr '\n' ',') IFS=',' read -r -a zones <<< "${raw%,}" for zone in "${zones[@]}"; do raw=($(curl -s -H "X-Auth-Token: ${TOKEN}" "${NOVA_ENDPOINT}/os-availability-zone/detail" | \ ${JQ} --arg zone "$zone" '[.availabilityZoneInfo[] | select(.zoneName==$zone) | .hosts|keys] | .[]' | \ tr -d '[]",' | sed '/^$/d' | tr '\n' ',' | tr -d ' ')) IFS=',' read -r -a nodes <<< "${raw%,}" for node in "${nodes[@]}"; do echo "node: $zone $node" done done
Running the above script produces the following output:
node: az1 node-1.example.com node: az1 node-2.example.com node: az2 node-3.example.com node: az2 node-4.example.com
Append to JSON
- Example of how to append key/values to an already existing JSON structure:
$ cat foo.json { "name": "bob", "age": 30 } $ cat foo.json | jq 'to_entries' [ { "key": "name", "value": "bob" }, { "key": "age", "value": 30 } ] $ cat foo.json | BEARERTOKEN="Bearer abc123" jq 'to_entries | . + [{"key":"routes","value":[{"path":"api/v1","url":"http://example.com","headers":[{"name":"Authorization","content":env.BEARERTOKEN}]}]}] | from_entries' { "name": "bob", "age": 30, "routes": [ { "path": "api/v1", "url": "http://example.com", "headers": [ { "name": "Authorization", "content": "Bearer abc123" } ] } ] }
- Update a specific nested value in a JSON file
$ export NEW_URL="https://172.x.x.x:6443" $ jq --arg new_url "${NEW_URL}" '(.resources[] | select(.type == "rke_cluster") | .instances[].attributes.api_server_url) |= $new_url' foo.json { "resources": [ { "module": "module.rancher", "type": "rke_cluster", "instances": [ { "attributes": { "api_server_url": "https://172.x.x.x:6443", "foo": "bar" } } ] } ] }
Miscellaneous
$ jq -crM '.resources[] | select(.provider == "module.rancher.provider.rancher2.bootstrap") | {instances: .instances[]|.attributes.current_password} | .[]' terraform.tfstate
-
kubectl-neat
: Easily copy a Kubernetes certificate secret to another namespace:
$ SOURCE_NAMESPACE=<update-me> $ DESTINATION_NAMESPACE=<update-me> $ kubectl -n ${SOURCE_NAMESPACE} get secret kafka-client-credentials -o json |\ kubectl neat |\ jq 'del(.metadata["namespace"])' |\ kubectl apply -n ${DESTINATION_NAMESPACE} -f -
See also
- yq — a portable command-line YAML, JSON, XML, CSV and properties processor.
- jid — a JSON incremental digger.
- kubectl-jq — kubectl plugin that works like
kubectl get
but runs everything through a JQ program you provide
External links
- Official website
- Bash For Look Over JSON Array Using Jq
- Jsonnet — an extension of JSON