Files
ragflow/internal/agent/canvas/scheduler_test.go
Zhichang Yu 3fa15c0e2f feat(agent): Go port — canvas engine, 22 components, DSL v2, 13 endpoints (#15952)
Ports the agent canvas subsystem from Python to Go.

## What's included

### Canvas Engine (Phase 0/1)
- State engine, scheduler, variable resolver, Redis checkpoint store,
cancel protocol
- **209 tests** across canvas / component / io packages

### 22 Components (P0–P4)
| Tier | Components |
|---|---|
| P0 T1+T2+T3 | LLM, Agent, ExitLoop, Switch, Categorize, Begin,
Message, Invoke |
| P1 T3 | VariableAggregator, VariableAssigner, StringTransform,
ListOperations, DataOperations |
| P2 T3 | Iteration, IterationItem, Loop, LoopItem |
| P3 T3 | UserFillUp, Fillup |
| P4 T5 | Browser, ExcelProcessor, DocsGenerator |

### DSL v2 Schema (Phase 2.5)
- Typed v2 in-memory model with v1-to-v2 auto-detect converter
- v1 legacy field stripping per plan §2.11.7

### HTTP Endpoints & Bug Fixes (Plans PR1–PR3)
- **DELETE SQL bug fix**: gorm v2 `Where("id = ?", id).Delete(...)`
pattern
- **CreateAgent validation**: title/DSL required, duplicate check, 103
envelope
- **13 new endpoints**: templates, prompts, tags, sessions CRUD,
chat/completions (SSE + non-stream stubs), rerun, test_db_connection,
logs, webhook/logs
- **756 Go unit tests** (745 → 756, +18)
- **17 → 0 Python integration test failures** (test_agents.py +
test_session_management/)

### Tools
21 eino tools: HTTPHelper, search tools, financial/data tools, mandatory
stubs

### Infrastructure
OTel observability, NATS message queue, DeepDoc gRPC client, SSRF
guards, IDOR mitigation
2026-06-12 22:58:28 +08:00

144 lines
4.2 KiB
Go

// Package canvas — scheduler unit tests (Worker A, Phase 1).
package canvas
import (
"context"
"strings"
"testing"
)
// TestBuildWorkflow_3NodeLinear exercises a trivial Begin → LLM → Message
// chain. Verifies the workflow compiles and the runtime paths exist.
func TestBuildWorkflow_3NodeLinear(t *testing.T) {
c := &Canvas{
Version: 1,
Components: map[string]CanvasComponent{
"begin_0": {
Obj: CanvasComponentObj{ComponentName: "Begin", Params: map[string]any{}},
Downstream: []string{"llm_0"},
Upstream: []string{},
},
"llm_0": {
Obj: CanvasComponentObj{ComponentName: "LLM", Params: map[string]any{"prompt": "hi"}},
Downstream: []string{"message_0"},
Upstream: []string{"begin_0"},
},
"message_0": {
Obj: CanvasComponentObj{ComponentName: "Message", Params: map[string]any{}},
Downstream: []string{},
Upstream: []string{"llm_0"},
},
},
Path: []string{"begin_0", "llm_0", "message_0"},
}
wf, err := BuildWorkflow(context.Background(), c)
if err != nil {
t.Fatalf("BuildWorkflow: %v", err)
}
if wf == nil {
t.Fatal("nil workflow")
}
// Compile to a Runnable to confirm the topology is internally consistent.
cc, err := Compile(context.Background(), c)
if err != nil {
t.Fatalf("Compile: %v", err)
}
if cc.Workflow == nil {
t.Fatal("nil compiled workflow")
}
}
// TestBuildWorkflow_5NodeDiamond exercises a diamond: A → B, A → C,
// B → D, C → D. The two parallel branches converge at D.
func TestBuildWorkflow_5NodeDiamond(t *testing.T) {
c := &Canvas{
Version: 1,
Components: map[string]CanvasComponent{
"begin_0": {
Obj: CanvasComponentObj{ComponentName: "Begin", Params: map[string]any{}},
Downstream: []string{"a_0"},
Upstream: []string{},
},
"a_0": {
Obj: CanvasComponentObj{ComponentName: "Categorize", Params: map[string]any{}},
Downstream: []string{"b_0", "c_0"},
Upstream: []string{"begin_0"},
},
"b_0": {
Obj: CanvasComponentObj{ComponentName: "LLM", Params: map[string]any{}},
Downstream: []string{"d_0"},
Upstream: []string{"a_0"},
},
"c_0": {
Obj: CanvasComponentObj{ComponentName: "LLM", Params: map[string]any{}},
Downstream: []string{"d_0"},
Upstream: []string{"a_0"},
},
"d_0": {
Obj: CanvasComponentObj{ComponentName: "Message", Params: map[string]any{}},
Downstream: []string{},
Upstream: []string{"b_0", "c_0"},
},
},
Path: []string{"begin_0", "a_0", "b_0", "c_0", "d_0"},
}
cc, err := Compile(context.Background(), c)
if err != nil {
t.Fatalf("Compile diamond: %v", err)
}
if cc.Workflow == nil {
t.Fatal("nil compiled diamond workflow")
}
}
// TestBuildWorkflow_ErrorsOnUnknownUpstream covers the "edge to unknown
// cpn" guard — a DSL bug should fail at compile-time, not silently skip.
func TestBuildWorkflow_ErrorsOnUnknownUpstream(t *testing.T) {
c := &Canvas{
Version: 1,
Components: map[string]CanvasComponent{
"begin_0": {
Obj: CanvasComponentObj{ComponentName: "Begin", Params: map[string]any{}},
Downstream: []string{"message_0"},
Upstream: []string{},
},
"message_0": {
Obj: CanvasComponentObj{ComponentName: "Message", Params: map[string]any{}},
Downstream: []string{},
Upstream: []string{"unknown_0"}, // <-- bad
},
},
}
_, err := BuildWorkflow(context.Background(), c)
if err == nil {
t.Fatal("expected error for unknown upstream")
}
if !strings.Contains(err.Error(), "unknown upstream") {
t.Fatalf("expected 'unknown upstream' in error, got: %v", err)
}
}
// TestBuildWorkflow_ErrorsOnSelfEdge catches the simplest DSL mistake.
func TestBuildWorkflow_ErrorsOnSelfEdge(t *testing.T) {
c := &Canvas{
Version: 1,
Components: map[string]CanvasComponent{
"a_0": {
Obj: CanvasComponentObj{ComponentName: "LLM", Params: map[string]any{}},
Downstream: []string{},
Upstream: []string{"a_0"}, // <-- self
},
},
}
_, err := BuildWorkflow(context.Background(), c)
if err == nil {
t.Fatal("expected error for self-edge")
}
if !strings.Contains(err.Error(), "self-edge") {
t.Fatalf("expected 'self-edge' in error, got: %v", err)
}
}