| name | building-flows |
| description | Build Celigo flows -- pipelines that move data from source systems to destination systems on a schedule or in response to events. Covers scheduling, chaining, error management, and abstract/instance templating. Use when creating, editing, or debugging flows. |
Building Flows
A flow moves data from one or more source systems to one or more destination systems. It runs on a schedule, in response to events (webhooks, listeners), or when triggered by another flow. Flows are the primary way integrations get work done in Celigo.
A flow has page generators (exports that fetch data) and page processors (imports and lookups that process each record). Processors run sequentially in a flat list, or conditionally through routers that branch records to different paths. These processing pipeline mechanics -- routers, branches, page processors, response mapping -- are shared with APIs and tools (see building-apis and building-tools).
Flow Topologies
Linear Flows
A flat pageProcessors[] list with no routers. One or more page generators feed records through a sequential chain of page processors. Each processor is either an import (type: "import") or a lookup export (type: "export"). Records pass through every step in order. Unique to flows -- APIs and tools always use routers.
Branching Flows
Page generators feed records into routers[] instead of pageProcessors[]. Each router evaluates records against branch conditions and routes them to matching branches. Branches contain their own pageProcessors[] and can chain to other routers via nextRouterId.
Two routing modes (shared with APIs and tools):
- Input filters (
routeRecordsUsing: "input_filters") -- S-expression rules on each branch; last branch can omit filter as a catch-all
- Script-based (
routeRecordsUsing: "script") -- a JavaScript function returns the branch name
Flows support both first_matching_branch and all_matching_branches routing. APIs only support first_matching_branch. Tools support first_matching_branch only.
A flow uses EITHER pageProcessors (linear) OR routers (branching) at the top level -- not both.
When a branching flow needs linear steps before the branch point (e.g., a lookup enrichment or AI classification that all branches depend on), use a pass-through router: a single-branch router with nextRouterId pointing to the branching router. Omit routeRecordsTo and routeRecordsUsing on the pass-through router -- including them makes it appear as a filter-based branch in the UI. The API defaults are sufficient.
Abstract / Instance Flows
A template/inheritance model. An abstract flow (isAbstract: true) defines the complete graph but cannot execute. Instance flows (_abstractFlowId) inherit the graph and customize via an overrides object (connections, schedules, mappings, filters).
Use when the same flow structure is deployed across multiple regions, tenants, or environments with different connections or parameters.
Quick Reference
Flow Type Decision Matrix
| Pattern | Structure | Key fields | Read schema |
|---|
| Linear | Flat processor list | pageGenerators[], pageProcessors[] | request.yml, page-generator.yml, page-processor.yml |
| Branching (routers) | Routers with conditional branches | pageGenerators[], routers[] | + router.yml, branch.yml |
| Abstract / Instance | Template + per-instance overrides | isAbstract: true / _abstractFlowId, overrides | + overrides-helper.yml, overrides.yml |
Minimum Required Fields
Every flow needs at minimum:
name -- display name
_integrationId -- parent integration
disabled: true -- always create disabled
pageGenerators[] -- at least one entry with _exportId
- Either
pageProcessors[] (linear) or routers[] (branching) -- never both
Which Schemas to Read
Always read:
Add for branching flows:
- router.yml -- routing strategy, record distribution mode
- branch.yml -- input filters, per-branch processors, chaining
Add if response mapping is needed:
All available schemas (in references/schemas/):
Related Skills
How to Build a Flow
1. Plan the flow
Before creating anything, decide what kind of operation this is:
Decision tree:
- Modifying an existing flow's step config (export settings, import mappings, scripts) -- work on the step directly, not the flow. Use
celigo exports set, celigo imports set, or the relevant skill (configuring-exports, configuring-imports, writing-scripts, writing-mappings)
- Modifying an existing flow's structure (add/remove steps, change schedule, rename) -- GET the flow, modify the structure, PUT it back. Don't rebuild from scratch
- Building a new flow where every step is known -- build directly, bottom-up (skip to step 2)
- Any ambiguity about what steps are needed -- design first. List every system, every data direction, every step before writing any JSON
Design checklist (when ambiguity exists):
- What source systems? What destination systems?
- What data moves between them, in which direction?
- How often? (cron schedule, webhook trigger, on-demand)
- What happens when a step fails? (
proceedOnFailure, error notifications)
- Do downstream steps need data from upstream responses? (response mapping)
- Is this a one-off or a reusable template? (abstract/instance flow)
- Sandbox or production? (never mix --
sandbox: true flows only use sandbox: true connections)
2. Identify the integration
Every flow belongs to an integration (the container). Find or create the integration first.
celigo integrations list
3. Check for existing patterns
Before building from scratch, check what already exists in the account and marketplace.
celigo account search "<keyword>"
celigo account dependencies flow <id>
celigo account lint
celigo templates marketplace
celigo templates preview <id> --summary
The account index auto-refreshes when stale (>4 hours). Force a fresh snapshot with celigo account snapshot.
4. Build the connections, exports, and imports
Flows reference existing resources. Build bottom-up: connections first, then exports and imports that use those connections, then the flow that wires them together.
celigo connections list
celigo exports list
celigo imports list
See configuring-exports and configuring-imports for how to build each resource.
5. Choose the topology
| Scenario | Topology |
|---|
| All records follow the same path | Linear (pageProcessors) |
| Records need conditional routing by field values | Branching with input filters |
| Routing logic requires custom JavaScript | Branching with script router |
| Records should fan out to all matching paths | Branching with all_matching_branches |
| Same structure across multiple tenants/regions | Abstract + instance flows |
Abstract/instance flows: Abstract flows are reusable templates that cannot run directly. Instance flows inherit the abstract's structure and override specific fields (connections, filters, schedules). Use when the same integration pattern repeats across tenants or regions. Create with isAbstract: true. Top-level pageProcessors are automatically wrapped into a single-branch router. Instance flows reference the abstract via _abstractFlowId and specify overrides -- they do NOT use the normal scaffolding process. _integrationId is NOT inherited and must be set explicitly on the instance.
6. Design the step sequence
For each step, decide:
- Type --
import (write to destination) or export (lookup for enrichment)
- Response mapping -- what data from this step's response do downstream steps need? Only add response mapping when downstream steps need fields that aren't already in the record or when field names need to change. If the lookup returns fields with the same names the downstream step expects, skip the response mapping -- it adds complexity without value.
- proceedOnFailure -- should the pipeline continue if this step fails?
- Hooks -- does this step need a
postResponseMap script?
7. Build the flow JSON
Reference the schemas listed in the Quick Reference above for exact field schemas.
8. Configure scheduling
Pair schedule (6-field cron) with timezone (IANA). Omit both for listener/webhook/realtime flows.
Individual page generators can override the flow schedule via their own schedule field.
9. Configure chaining (if needed)
_runNextFlowIds -- trigger other flows on completion
10. Create disabled, verify, enable
Always create with disabled: true. Verify the structure with celigo flows get. Enable only after verification.
CLI Commands
celigo flows list
celigo flows get <id>
celigo flows create < flow.json
celigo flows update <id> < flow.json
celigo flows set <id> key=value [key2=value2 ...]
celigo flows delete <id>
celigo flows run <id> [--start-date <ISO8601>] [--end-date <ISO8601>] [--export-ids <ids>] -y
celigo flows test-run <id> --export <exportId>
celigo flows test-run-step-results <id> <runId> <exportOrImportId>
echo '{"connectionMap":{"oldId":"newId"}}' | celigo flows clone <id> <integrationId> <environmentId> [--flow-group <id>]
celigo flows add-generator <id> <exportId> [--schedule '<cron>'] [--index <pos>]
celigo flows remove-generator <id> <exportId>
celigo flows add-processor <id> <exportOrImportId> [--router <routerId>] [--branch <branchName>]
celigo flows remove-processor <id> <exportOrImportId> [--router <routerId>] [--branch <branchName>]
celigo flows replace-connection <id> <oldConnectionId> <newConnectionId>
celigo flows errors <id> <exportOrImportId>
celigo flows resolved-errors <id> <exportOrImportId>
celigo flows resolve-errors <id> <exportOrImportId> [errorIds] [-y]
celigo flows retry-errors <id> <exportOrImportId> [retryDataKeys] [-y]
celigo flows assign-errors <id> <exportOrImportId> <email> [errorIds] [-y]
celigo flows delete-resolved-errors <id> <exportOrImportId> [errorIds] [-y]
celigo flows error <id> <exportOrImportId> <errorId> [--retry-data] [--request-detail]
celigo flows update-error-data <id> <exportOrImportId> <errorId>
celigo flows tag-errors <id> <exportOrImportId>
celigo flows error-summary <id>
celigo flows error-analysis <id> <exportOrImportId> [--limit <n>]
celigo flows debug-requests <id> <exportOrImportId> [--since <minutes>]
celigo flows debug-request-detail <id> <exportOrImportId> <key>
celigo flows enable-execution-logs <id> [--duration <minutes>]
celigo flows disable-execution-logs <id>
celigo flows execution-logs <id> <jobId>
celigo flows query-execution-logs <id> <jobId> --export-or-import-id <id> --group-id <gid> --record-id <rid>
celigo flows execution-log-detail <id> <jobId> --export-or-import-id <id> --stage <stage> --group-id <gid> --record-id <rid>
celigo flows last-export-date <id>
celigo integrations flow-groups <integrationId>
celigo integrations create-flow-group <integrationId> <name>
celigo flows set-group <flowGroupingId> <flowIds...>
Pre-Submit Checklist
Before creating or updating a flow, verify:
Gotchas
- PUT erases omitted fields. Always GET first, modify, then PUT. The
set command handles this automatically.
pageProcessors and routers are mutually exclusive. A flow uses one or the other at the top level. Setting both causes validation errors.
- Router IDs must be unique within a flow. Use random alphanumeric strings (e.g.,
"N8Q9NX24Sj5"). nextRouterId must reference an existing router id in the same flow.
- Create flows with
disabled: true. An enabled flow with a schedule will run immediately. Enable only after verification.
- Build order matters. Connection -> Export -> Import -> Flow. The API rejects references to non-existent resources.
- Schedule is 6-field cron with seconds. Format:
"? minute hour dayOfMonth month dayOfWeek". The first field is always ?. Common mistake: using 5-field cron without the seconds position.
- Instance flows cannot define structure. Do not set
pageGenerators, pageProcessors, or routers on instance flows -- these are inherited from the abstract flow. All customizations go through overrides.
- Instance flow
overrides is full-replace on PUT. Omitting an override entry removes it. Always GET, merge changes, then PUT.
- Empty
pageProcessors: [] in a branch is the discard pattern. Records matching that branch are dropped. A branch with no inputFilter serves as a catch-all.
responseMapping uses Transformation 1.0 syntax (extract/generate pairs), not expression-based transforms. Lookup export responses use data[0].fieldName; import responses use _json.fieldName.
- Don't add unnecessary transforms on lookups. If the lookup returns fields with the same names the downstream import expects, skip the transform -- the data flows through as-is. Only add a transform when you need to rename fields, reshape nested structures, or drop fields. An identity transform (e.g.,
errorId -> $.errorId) adds complexity for no benefit.
Common Errors
| Error | Cause | Fix |
|---|
"pageProcessors" is not allowed when "routers" is present | Both pageProcessors[] and routers[] set on the same flow | Remove one -- use pageProcessors for linear, routers for branching |
Invalid reference: _integrationId | Integration ID does not exist or is misspelled | Verify with celigo integrations get <id> |
Invalid reference: _exportId / _importId | Export or import referenced in a page generator/processor does not exist | Create the export/import first, then reference it |
Invalid reference: _connectionId | Connection ID on an export or import does not exist | Verify with celigo connections get <id> |
Duplicate router id | Two routers in the same flow share the same id | Assign unique alphanumeric IDs to each router |
Invalid nextRouterId | A branch references a router id that does not exist in the flow | Ensure nextRouterId matches an actual router id in the same flow |
Invalid cron expression | Schedule uses 5-field cron or wrong format | Use 6-field format: "? */5 * * * *" (seconds field first, always ?) |
| Flow runs immediately after creation | Created with disabled: false or disabled omitted (defaults to enabled) | Always set disabled: true on create; enable after verification |