Damien Arnodo
a105e44bbd
## Summary Implements Infrahub Jinja2 Transform for VRF/L3VNI configuration, generating structured JSON payloads from Infrahub intent data. Closes #21. ## What's included - **GraphQL query** (`transforms/queries/vrf_intent.gql`): Queries `InfraVRFDeviceAssignment` by device name, fetching VRF details, L3VNI, route targets, and device-specific route distinguisher - **Jinja2 transform** (`transforms/templates/vrf_yang.j2`): Renders VRF config payloads with defensive null handling (lessons learned from #20) - **`.infrahub.yml`** updated with the new query and transform definitions - **Tests** (`transforms/tests/vrf_yang/`) using correct Infrahub pytest format (`jinja2-transform-smoke` + `jinja2-transform-unit-render`) ## Validation All transforms render correctly: | Device | Expected | Result | |--------|----------|--------| | `leaf3` | VRF gold, RD `10.0.250.13:1`, L3VNI 100001 | ✅ | | `leaf7` | VRF gold, RD `10.0.250.17:1`, L3VNI 100001 | ✅ | | `leaf1` | Empty array (no VRF assignment) | ✅ | | `spine1` | Empty array (no VRF assignment) | ✅ | ## Usage ```bash # Local debugging infrahubctl render vrf_yang_transform device_name=leaf3 # API endpoint GET /api/transform/jinja2/vrf_yang_transform?device_name=leaf3 ``` ## Related - Depends on: #20 (base transforms infrastructure, already merged) - Reference: Arista EVPN Type-5 / L3VXLAN configuration from lab topology
16 lines
293 B
JSON
16 lines
293 B
JSON
[
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{
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"description": "VRF gold - L3 VXLAN with symmetric IRB",
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"export_targets": [
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"1:100001"
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],
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"import_targets": [
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"1:100001"
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],
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"l3vni": 100001,
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"redistribute_connected": true,
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"route_distinguisher": "10.0.250.13:1",
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"vrf_name": "gold"
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}
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]
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