Files
ragflow/internal/ingestion/service/run_task_test.go
Jack cfacaccad7 Refactor: message processing (#16852)
### Summary

1. refactor message processing
2. delete un-used componentIndexMap
3. unfold (delete) internal/ingestion/task/task_handler.go
2026-07-13 16:32:34 +08:00

315 lines
11 KiB
Go

package service
import (
"context"
"errors"
"testing"
"ragflow/internal/common"
"ragflow/internal/dao"
"ragflow/internal/entity"
"ragflow/internal/ingestion/testutil"
)
// TestRunTask_ContextCancelledBeforeCheckpoint: a cancelled context makes
// runTask return true (terminal: durably recorded cancel) immediately, without
// bumping the checkpoint or calling runDocumentTask. The task status is
// transitioned to STOPPED so it does not stay RUNNING forever.
func TestRunTask_ContextCancelledBeforeCheckpoint(t *testing.T) {
db := testutil.SetupTestDB(t)
cleanup := testutil.ReplaceDBForTest(t, db)
defer cleanup()
_, _, _, taskID := testutil.SeedTestData(t, db, testutil.WithPipelineID("flow-1"))
ingestor := NewIngestor("test", 1, []string{"pdf"})
var runDocCalled bool
ingestor.runDocumentTask = func(ctx context.Context, _ *entity.IngestionTask) error {
runDocCalled = true
return nil
}
ctx, cancel := context.WithCancel(context.Background())
cancel()
terminal := ingestor.runTask(ctx, &entity.IngestionTask{
ID: taskID, DocumentID: "doc-1", DatasetID: "kb-1",
})
if !terminal {
t.Fatal("expected true (terminal: durably recorded cancel) on cancelled ctx")
}
if runDocCalled {
t.Fatal("expected runDocumentTask to be skipped on cancelled ctx")
}
// Checkpoint must not have been bumped — no log row should exist.
logs, err := dao.NewIngestionTaskLogDAO().ListLogsByTaskID(taskID)
if err != nil {
t.Fatalf("list logs: %v", err)
}
if len(logs) != 0 {
t.Fatalf("expected 0 checkpoint rows (ctx cancelled before checkpoint), got %d", len(logs))
}
// Task must be STOPPED, not left in RUNNING.
task, err := dao.NewIngestionTaskDAO().GetByID(taskID)
if err != nil {
t.Fatalf("load task: %v", err)
}
if task.Status != common.STOPPED {
t.Fatalf("task status = %s, want STOPPED", task.Status)
}
}
// TestRunTask_CheckpointFailureMarksFailed: a corrupted run_count value is
// skipped by IncrementRunCount (it scans past unparseable rows). The task
// proceeds normally and completes.
func TestRunTask_CorruptedRunCountSkipped(t *testing.T) {
db := testutil.SetupTestDB(t)
cleanup := testutil.ReplaceDBForTest(t, db)
defer cleanup()
_, _, docID, taskID := testutil.SeedTestData(t, db, testutil.WithPipelineID("flow-1"))
// Seed a bad checkpoint: run_count is a string, not a number.
if err := db.Create(&entity.IngestionTaskLog{
TaskID: taskID,
Checkpoint: entity.JSONMap{
"run_count": "not-a-number",
},
}).Error; err != nil {
t.Fatalf("insert bad log: %v", err)
}
ingestor := NewIngestor("test", 1, []string{"pdf"})
var runDocCalled bool
ingestor.runDocumentTask = func(ctx context.Context, _ *entity.IngestionTask) error {
runDocCalled = true
return nil
}
terminal := ingestor.runTask(context.Background(), &entity.IngestionTask{
ID: taskID, DocumentID: docID, DatasetID: "kb-1", Status: common.RUNNING,
})
if !terminal {
t.Fatal("expected true (terminal: completed despite corrupted run_count)")
}
if !runDocCalled {
t.Fatal("expected runDocumentTask to be called (bad run_count is skipped, not fatal)")
}
task, err := dao.NewIngestionTaskDAO().GetByID(taskID)
if err != nil {
t.Fatalf("load task: %v", err)
}
if task.Status != common.COMPLETED {
t.Fatalf("task status = %s, want COMPLETED", task.Status)
}
}
// TestRunTask_RunDocumentTaskFailureMarksFailed: when runDocumentTask errors,
// runTask marks the task FAILED and returns durably-written.
func TestRunTask_RunDocumentTaskFailureMarksFailed(t *testing.T) {
db := testutil.SetupTestDB(t)
cleanup := testutil.ReplaceDBForTest(t, db)
defer cleanup()
_, _, docID, taskID := testutil.SeedTestData(t, db, testutil.WithPipelineID("flow-1"))
ingestor := NewIngestor("test", 1, []string{"pdf"})
ingestor.runDocumentTask = func(ctx context.Context, _ *entity.IngestionTask) error {
return errors.New("boom")
}
terminal := ingestor.runTask(context.Background(), &entity.IngestionTask{
ID: taskID, DocumentID: docID, DatasetID: "kb-1", Status: common.RUNNING,
})
if !terminal {
t.Fatal("expected true (terminal: durably marked FAILED)")
}
task, err := dao.NewIngestionTaskDAO().GetByID(taskID)
if err != nil {
t.Fatalf("load task: %v", err)
}
if task.Status != common.FAILED {
t.Fatalf("task status = %s, want FAILED", task.Status)
}
}
// TestRunTask_PipelineCancelledMarksStopped: when runDocumentTask returns
// context.Canceled (the pipeline detected a cancel signal), runTask treats
// it as a cancel, not a failure, and transitions the task to STOPPED.
func TestRunTask_PipelineCancelledMarksStopped(t *testing.T) {
db := testutil.SetupTestDB(t)
cleanup := testutil.ReplaceDBForTest(t, db)
defer cleanup()
_, _, docID, taskID := testutil.SeedTestData(t, db, testutil.WithPipelineID("flow-1"))
// Simulate RequestStop was already called: task in STOPPING.
if err := db.Model(&entity.IngestionTask{}).Where("id = ?", taskID).
Update("status", common.STOPPING).Error; err != nil {
t.Fatalf("set task STOPPING: %v", err)
}
ingestor := NewIngestor("test", 1, []string{"pdf"})
ingestor.runDocumentTask = func(ctx context.Context, _ *entity.IngestionTask) error {
return context.Canceled
}
terminal := ingestor.runTask(context.Background(), &entity.IngestionTask{
ID: taskID, DocumentID: docID, DatasetID: "kb-1", Status: common.STOPPING,
})
if !terminal {
t.Fatal("expected true (terminal: durably marked STOPPED)")
}
task, err := dao.NewIngestionTaskDAO().GetByID(taskID)
if err != nil {
t.Fatalf("load task: %v", err)
}
if task.Status != common.STOPPED {
t.Fatalf("task status = %s, want STOPPED", task.Status)
}
}
// TestRunTask_ComponentTimeoutMarksFailed: when runDocumentTask returns
// context.DeadlineExceeded (component Invoke hit its per-class timeout),
// runTask marks the task FAILED, not STOPPED. A component timeout is a
// system resource exhaustion, not a user-initiated cancellation.
func TestRunTask_ComponentTimeoutMarksFailed(t *testing.T) {
db := testutil.SetupTestDB(t)
cleanup := testutil.ReplaceDBForTest(t, db)
defer cleanup()
_, _, docID, taskID := testutil.SeedTestData(t, db, testutil.WithPipelineID("flow-1"))
ingestor := NewIngestor("test", 1, []string{"pdf"})
ingestor.runDocumentTask = func(ctx context.Context, _ *entity.IngestionTask) error {
return context.DeadlineExceeded
}
terminal := ingestor.runTask(context.Background(), &entity.IngestionTask{
ID: taskID, DocumentID: docID, DatasetID: "kb-1", Status: common.RUNNING,
})
if !terminal {
t.Fatal("expected true (terminal: durably marked FAILED)")
}
task, err := dao.NewIngestionTaskDAO().GetByID(taskID)
if err != nil {
t.Fatalf("load task: %v", err)
}
if task.Status != common.FAILED {
t.Fatalf("task status = %s, want FAILED (DeadlineExceeded is a failure, not a cancel)", task.Status)
}
}
// TestRunTask_AlreadyCompletedAcksNotRedelivers: when the pipeline succeeds but
// the task is already COMPLETED (e.g. another worker won a redelivery race),
// MarkCompleted's transition fails terminally. runTask must treat this as
// terminal and Ack - the work is done, redelivering would just ack-skip - and
// must NOT retry the deterministically-invalid transition.
func TestRunTask_AlreadyCompletedAcksNotRedelivers(t *testing.T) {
db := testutil.SetupTestDB(t)
cleanup := testutil.ReplaceDBForTest(t, db)
defer cleanup()
_, _, docID, taskID := testutil.SeedTestData(t, db, testutil.WithPipelineID("flow-1"))
// Pre-set the task COMPLETED so the RUNNING→COMPLETED transition inside
// MarkCompleted fails.
if err := db.Model(&entity.IngestionTask{}).Where("id = ?", taskID).
Update("status", common.COMPLETED).Error; err != nil {
t.Fatalf("set task COMPLETED: %v", err)
}
ingestor := NewIngestor("test", 1, []string{"pdf"})
ingestor.runDocumentTask = func(ctx context.Context, _ *entity.IngestionTask) error {
return nil
}
terminal := ingestor.runTask(context.Background(), &entity.IngestionTask{
ID: taskID, DocumentID: docID, DatasetID: "kb-1", Status: common.RUNNING,
})
if !terminal {
t.Fatal("expected true (terminal: task already COMPLETED, Ack instead of redeliver)")
}
// Task must still be COMPLETED (MarkCompleted failed to transition it).
task, err := dao.NewIngestionTaskDAO().GetByID(taskID)
if err != nil {
t.Fatalf("load task: %v", err)
}
if task.Status != common.COMPLETED {
t.Fatalf("task status = %s, want COMPLETED (unchanged)", task.Status)
}
}
// TestRunTask_PipelineSucceedsConcurrentStopSettlesStopped: the pipeline
// finishes successfully, but a concurrent user stop (RequestStop) moved the
// task RUNNING->STOPPING just before MarkCompleted. The RUNNING->COMPLETED
// transition is now terminally invalid; runTask must settle the task to
// STOPPED and Ack (the pipeline already indexed the chunks) instead of
// retrying the invalid transition and Nacking for redelivery.
func TestRunTask_PipelineSucceedsConcurrentStopSettlesStopped(t *testing.T) {
db := testutil.SetupTestDB(t)
cleanup := testutil.ReplaceDBForTest(t, db)
defer cleanup()
_, _, docID, taskID := testutil.SeedTestData(t, db, testutil.WithPipelineID("flow-1"))
ingestor := NewIngestor("test", 1, []string{"pdf"})
ingestor.runDocumentTask = func(ctx context.Context, task *entity.IngestionTask) error {
// Simulate the user pressing Stop mid-pipeline: RUNNING->STOPPING.
if _, err := ingestor.ingestionTaskSvc.RequestStop(task.ID); err != nil {
t.Fatalf("RequestStop: %v", err)
}
return nil // pipeline still finishes successfully
}
terminal := ingestor.runTask(context.Background(), &entity.IngestionTask{
ID: taskID, DocumentID: docID, DatasetID: "kb-1", Status: common.RUNNING,
})
if !terminal {
t.Fatal("expected true (terminal: settled to STOPPED, Ack)")
}
task, err := dao.NewIngestionTaskDAO().GetByID(taskID)
if err != nil {
t.Fatalf("load task: %v", err)
}
if task.Status != common.STOPPED {
t.Fatalf("task status = %s, want STOPPED (settled from concurrent STOPPING)", task.Status)
}
}
// TestRunTask_SuccessfulCompletion: when everything succeeds, runTask returns
// true (terminal) and the task is COMPLETED.
func TestRunTask_SuccessfulCompletion(t *testing.T) {
db := testutil.SetupTestDB(t)
cleanup := testutil.ReplaceDBForTest(t, db)
defer cleanup()
_, _, docID, taskID := testutil.SeedTestData(t, db, testutil.WithPipelineID("flow-1"))
ingestor := NewIngestor("test", 1, []string{"pdf"})
ingestor.runDocumentTask = func(ctx context.Context, _ *entity.IngestionTask) error {
return nil
}
terminal := ingestor.runTask(context.Background(), &entity.IngestionTask{
ID: taskID, DocumentID: docID, DatasetID: "kb-1", Status: common.RUNNING,
})
if !terminal {
t.Fatal("expected true (terminal: durably completed)")
}
task, err := dao.NewIngestionTaskDAO().GetByID(taskID)
if err != nil {
t.Fatalf("load task: %v", err)
}
if task.Status != common.COMPLETED {
t.Fatalf("task status = %s, want COMPLETED", task.Status)
}
}