sf-industry-commoncore-integration-procedure: OmniStudio Integration Procedure Creation and Validation
Expert OmniStudio Integration Procedure (IP) builder with deep knowledge of server-side process orchestration. Create production-ready IPs that combine DataRaptor/Data Mapper actions, Apex Remote Actions, HTTP callouts, conditional logic, and nested procedure calls into declarative multi-step operations.
Quick Reference
Scoring: 110 points across 6 categories. Thresholds: ✅ 90+ (Deploy) | ⚠️ 67-89 (Review) | ❌ <67 (Block - fix required)
Core Responsibilities
- IP Generation: Create well-structured Integration Procedures from requirements, selecting correct element types and wiring inputs/outputs
- Element Composition: Assemble DataRaptor actions, Remote Actions, HTTP callouts, conditional blocks, loops, and nested IP calls into coherent orchestrations
- Dependency Analysis: Validate that referenced DataRaptors, Apex classes, and nested IPs exist and are active before deployment
- Error Handling: Enforce try/catch patterns, conditional rollback, and response validation across all data-modifying steps
CRITICAL: Orchestration Order
sf-industry-commoncore-omnistudio-analyze -> sf-industry-commoncore-datamapper -> sf-industry-commoncore-integration-procedure -> sf-industry-commoncore-omniscript -> sf-industry-commoncore-flexcard (you are here: sf-industry-commoncore-integration-procedure)
Data Mappers referenced by the IP must exist FIRST. Build and deploy DataRaptors/Data Mappers before the IP that calls them. The IP must be active before any OmniScript or FlexCard can invoke it.
Key Insights
| Insight | Details |
|---|
| Chaining | IPs call other IPs via Integration Procedure Action elements. Output of one step feeds input of the next via response mapping. Design data flow linearly where possible. |
| Response Mapping | Each element's output is namespaced under its element name in the response JSON. Use syntax to reference upstream outputs in downstream inputs. |
| Caching | IPs support platform cache for read-heavy orchestrations. Set and in the procedure's PropertySet. Avoid caching procedures that perform DML. |
| Versioning | Type/SubType pairs uniquely identify an IP. Use SubType for versioning (e.g., , ). Only one version can be active at a time per Type/SubType. |
Core Namespace Discriminator: OmniStudio Core stores both Integration Procedures and OmniScripts in the
table. Use
IsIntegrationProcedure = true
or
OmniProcessType = 'Integration Procedure'
to filter IPs. Without a filter, queries return mixed results.
CRITICAL — Creating IPs via Data API: When creating OmniProcess records, set
IsIntegrationProcedure = true
to make the record an Integration Procedure. The
picklist is
computed from this boolean and cannot be set directly. Also,
is a required field on
(not documented in standard OmniStudio docs). Use
sf api request rest --method POST --body @file.json
for creation — the
sf data create record --values
flag cannot handle JSON textarea fields like
.
Workflow Design (5-Phase Pattern)
Phase 1: Requirements Gathering
Before building, evaluate alternatives: Sometimes a single DataRaptor, an Apex service, or a Flow is the better choice. IPs are optimal when you need declarative multi-step orchestration with branching, error handling, and mixed data sources.
Ask the user to gather:
- Purpose and business process being orchestrated
- Target objects and data sources (Salesforce objects, external APIs, or both)
- Type/SubType naming (e.g., , )
- Target org alias for deployment
Then: Check existing IPs via CLI query (see CLI Commands below), identify reusable DataRaptors/Data Mappers, and review dependent components with sf-industry-commoncore-omnistudio-analyze.
Phase 2: Design & Element Selection
| Element Type | Use Case | PropertySet Key |
|---|
| DataRaptor Extract Action | Read Salesforce data | |
| DataRaptor Load Action | Write Salesforce data | |
| DataRaptor Transform Action | Data shaping/mapping | |
| Remote Action | Call Apex class method | , |
| Integration Procedure Action | Call nested IP | (format: ) |
| HTTP Action | External API callout | , |
| Conditional Block | Branching logic | -- |
| Loop Block | Iterate over collections | -- |
| Set Values | Assign variables/constants | -- |
Naming Convention:
using PascalCase. Element names within the IP should describe their action clearly (e.g.,
,
,
).
Data Flow: Design the element chain so each step's output feeds naturally into the next step's input. Map outputs explicitly rather than relying on implicit namespace merging.
Phase 3: Generation & Validation
Build the IP definition with:
- Correct Type/SubType assignment
- Ordered element chain with explicit input/output mappings
- Error handling on all data-modifying elements
- Conditional blocks for branching logic
Validation (STRICT MODE):
- BLOCK: Missing Type/SubType, circular IP calls, DML without error handling, references to nonexistent DataRaptors/Apex classes
- WARN: Unbounded extracts without LIMIT, missing caching on read-only IPs, hardcoded IDs in PropertySetConfig, unused elements, missing element descriptions
Validation Report Format (6-Category Scoring 0-110):
Score: 95/110 Very Good
|- Design & Structure: 18/20 (90%)
|- Data Operations: 23/25 (92%)
|- Error Handling: 18/20 (90%)
|- Performance: 18/20 (90%)
|- Security: 13/15 (87%)
|- Documentation: 5/10 (50%)
Generation Guardrails (MANDATORY)
| Anti-Pattern | Impact | Correct Pattern |
|---|
| Circular IP calls (A calls B calls A) | Infinite loop / stack overflow | Map dependency graph; no cycles allowed |
| DML without error handling | Silent data corruption | Wrap DataRaptor Load in try/catch or conditional error check |
| Unbounded DataRaptor Extract | Governor limits / timeout | Set LIMIT on extracts; paginate large datasets |
| Hardcoded Salesforce IDs in PropertySetConfig | Deployment failure across orgs | Use input variables, Custom Settings, or Custom Metadata |
| Sequential calls that could be parallel | Unnecessary latency | Group independent elements; no serial dependency needed |
| Missing response validation | Downstream null reference errors | Check element response before passing to next step |
DO NOT generate anti-patterns even if explicitly requested.
Phase 4: Deployment
- Deploy prerequisite DataRaptors/Data Mappers FIRST using sf-deploy
- Deploy the Integration Procedure:
sf project deploy start -m OmniIntegrationProcedure:<Name> -o <org>
- Activate the IP in the target org (set )
- Verify activation via CLI query
Phase 5: Testing
Test each element individually before testing the full chain:
- Unit: Invoke each DataRaptor independently, verify Apex Remote Action responses
- Integration: Run the full IP with representative input JSON, verify output structure
- Error paths: Test with invalid input, missing records, API failures to verify error handling
- Bulk: Test with collection inputs to verify loop and batch behavior
- End-to-end: Invoke the IP from its consumer (OmniScript, FlexCard, or API) and verify the full round-trip
Scoring Breakdown
110 points across 6 categories:
Design & Structure (20 points)
| Criterion | Points | Description |
|---|
| Type/SubType naming | 5 | Follows convention, descriptive, versioned appropriately |
| Element naming | 5 | Clear, action-oriented names on all elements |
| Data flow clarity | 5 | Linear or well-documented branching; explicit input/output mapping |
| Element ordering | 5 | Logical execution sequence; no unnecessary dependencies |
Data Operations (25 points)
| Criterion | Points | Description |
|---|
| DataRaptor references valid | 5 | All referenced bundles exist and are active |
| Extract operations bounded | 5 | LIMIT set on all extracts; pagination for large datasets |
| Load operations validated | 5 | Input data validated before DML; required fields checked |
| Response mapping correct | 5 | Outputs correctly mapped between elements |
| Data transformation accuracy | 5 | Transform actions produce expected output structure |
Error Handling (20 points)
| Criterion | Points | Description |
|---|
| DML error handling | 8 | All DataRaptor Load actions have error handling |
| HTTP error handling | 4 | All HTTP actions check status codes and handle failures |
| Remote Action error handling | 4 | Apex exceptions caught and surfaced |
| Rollback strategy | 4 | Multi-step DML has conditional rollback or compensating actions |
Performance (20 points)
| Criterion | Points | Description |
|---|
| No unbounded queries | 5 | All extracts have reasonable LIMIT values |
| Caching applied | 5 | Read-only procedures use platform cache where appropriate |
| Parallel execution | 5 | Independent elements not serialized unnecessarily |
| No redundant calls | 5 | Same data not fetched multiple times across elements |
Security (15 points)
| Criterion | Points | Description |
|---|
| No hardcoded IDs | 5 | IDs passed as input variables or from metadata |
| No hardcoded credentials | 5 | API keys/tokens use Named Credentials or Custom Settings |
| Input validation | 5 | User-supplied input sanitized before use in queries or DML |
Documentation (10 points)
| Criterion | Points | Description |
|---|
| Procedure description | 3 | Clear description of purpose and business context |
| Element descriptions | 4 | Each element has a description explaining its role |
| Input/output documentation | 3 | Expected input JSON and output JSON structure documented |
CLI Commands
bash
# Query active Integration Procedures
sf data query -q "SELECT Id,Name,Type,SubType,IsActive FROM OmniProcess WHERE IsActive=true AND IsIntegrationProcedure=true" -o <org>
# Query all Integration Procedures (including inactive)
sf data query -q "SELECT Id,Name,Type,SubType,IsActive,LastModifiedDate FROM OmniProcess WHERE IsIntegrationProcedure=true ORDER BY LastModifiedDate DESC" -o <org>
# Retrieve an Integration Procedure
sf project retrieve start -m OmniIntegrationProcedure:<Name> -o <org>
# Deploy an Integration Procedure
sf project deploy start -m OmniIntegrationProcedure:<Name> -o <org>
# Deploy with dry-run validation first
sf project deploy start -m OmniIntegrationProcedure:<Name> -o <org> --dry-run
Core Namespace Note: The
IsIntegrationProcedure=true
filter is REQUIRED (or equivalently
OmniProcessType='Integration Procedure'
). OmniScript and Integration Procedure records share the
sObject. Without this filter, queries return both types and produce misleading results.
Cross-Skill Integration
| From Skill | To sf-industry-commoncore-integration-procedure | When |
|---|
| sf-industry-commoncore-omnistudio-analyze | -> sf-industry-commoncore-integration-procedure | "Analyze dependencies before building IP" |
| sf-industry-commoncore-datamapper | -> sf-industry-commoncore-integration-procedure | "DataRaptor/Data Mapper is ready, wire it into IP" |
| sf-apex | -> sf-industry-commoncore-integration-procedure | "Apex Remote Action class deployed, configure in IP" |
| From sf-industry-commoncore-integration-procedure | To Skill | When |
|---|
| sf-industry-commoncore-integration-procedure | -> sf-deploy | "Deploy IP to target org" |
| sf-industry-commoncore-integration-procedure | -> sf-industry-commoncore-omniscript | "IP is active, build OmniScript that calls it" |
| sf-industry-commoncore-integration-procedure | -> sf-industry-commoncore-flexcard | "IP is active, build FlexCard data source" |
| sf-industry-commoncore-integration-procedure | -> sf-industry-commoncore-omnistudio-analyze | "Verify IP dependency graph before deployment" |
Edge Cases
| Scenario | Solution |
|---|
| IP calls itself (direct recursion) | Block at design time; circular dependency check is mandatory |
| IP calls IP that calls original (indirect recursion) | Map full call graph; sf-industry-commoncore-omnistudio-analyze detects cycles |
| DataRaptor not yet deployed | Deploy DataRaptors first; IP deployment will fail on missing references |
| External API timeout | Set timeout values on HTTP Action elements; implement retry logic or graceful degradation |
| Large collection input to Loop Block | Set batch size; test with realistic data volumes to avoid CPU timeout |
| Type/SubType collision with existing IP | Query existing IPs before creating; SubType versioning avoids collisions |
| Mixed namespace (Vlocity vs Core) | Confirm org namespace; element property names differ between packages |
Debug: IP not executing -> check IsActive flag + Type/SubType match | Elements skipped -> verify conditional block logic + input data shape | Timeout -> check DataRaptor query scope + HTTP timeout settings | Deployment failure -> verify all referenced components deployed and active
Notes
Dependencies (optional): sf-deploy, sf-industry-commoncore-datamapper, sf-industry-commoncore-omnistudio-analyze |
API: 66.0 |
Mode: Strict (warnings block) |
Scoring: Block deployment if score < 67 | See
references/best-practices.md
and
references/element-types.md
for detailed guidance.
Creating IPs programmatically: Use REST API (
sf api request rest --method POST --body @file.json
). Required fields:
,
,
,
,
,
IsIntegrationProcedure=true
. Then create
child records for each action step (also via REST API for JSON PropertySetConfig). Activate by setting
after all elements are created.
License
MIT License.
Copyright (c) 2026 David Ryan (weytani)